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1047@Fujita, Y. & Suzuki, R.@Studies on the Hill reaction of membrane fragments of blue-green algae IV. Carotenoid photobleaching induced by photosystem II action.@Plant Cell Physiol.,@14,@261-273.@1973@@@NIES-19@NIES19@NIES-23@NIES23
1048@Fujita, Y. & Tsuji, T.@Photochemically active chromoprotein isolated from the blue-green alga Anabaena cylindrica.@Nature,@219,@1270-1271.@1968@@@NIES-19@NIES19
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1056@Handa, S., Nakahara, M., Tsubota, H., Deguchi, H., Nakano, T.@A new aerial alga, Stichococcus ampulliformis sp. nov. (Trebouxiophyceae, Chlorophyta) from Japan.@Phycol. Res.,@51,@203-210.@2003@@aerial algae; molecular phylogeny; Stichococcus ampulliformis sp. nov.; Trebouxiophyceae; 18SrRNA gene@NIES-996@NIES996
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1059@Hara, Y., Doi, K., Chihara, M.@Four new species of Chattonella (Raphidophyceae, Chromophyta) from Japan.@Jpn. J. Phycol. (Sôrui),@42,@407-420.@1994@@Chattonella; C. globosa; C. minima; C. ovata; C. verruculosa; Raphidophyceae; red tide organisms; taxonomy@NIES-118@NIES118@NIES-161@NIES161@NIES-603@NIES603@NIES-849@NIES849@NIES-670@NIES670
1060@Hara, Y., Inouye, I., Chihara, M.@Morphology and ultrastructure of Olisthodiscus luteus (Raphidophyceae) with special reference to the taxonomy.@Bot. Mag. Tokyo,@98,@251-262.@1985@@Heterosigma; Olisthodiscus luteus; Raphidophyceae; red tide flagellate; taxonomy of Olisthodiscus; ultrastructure of Olisthodiscus@NIES-15@NIES15
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1064@Hattori, A. & Fujita, Y.@Crystalline phycobilin chromoproteids obtained from a blue-green alga, Tolypothrix tenuis.@J. Biochem.,@46,@633-644.@1959@@@NIES-37@NIES37
1065@Hattori, A. & Fujita, Y.@Spectroscopic studies on the phycobilin pigments obtained from blue-green and red algae.@J. Biochem.,@46,@903-909.@1959@@@NIES-37@NIES37
1066@Hattori, A. & Fujita, Y.@Effect of pre-illumination on the formation of phycobilin pigments in a blue-green alga, Tolypothrix tenuis.@J. Biochem.,@46,@1259-1261.@1959@@@NIES-37@NIES37
1067@Hattori, A. & Uesugi, I.@Ferredoxin-dependent photoreduction of nitrate and nitrite by subcellular preparations of Anabaena cylindrica.@In Comparative Biochemistry and Biophysics of Photosynthesis, Eds. by Shibata, K., et al., University of Tokyo Press, Tokyo,@@pp. 201-205.@1968@@@NIES-19@NIES19
1068@Hayashi-Ishimaru, Y., Ehara, M., Inagaki, Y., Ohama, T.@A deviant mitochondrial genetic code in prymnesiophytes (yellow-algae): UGA codon for tryptophan.@Curr. Genet.,@32,@296-299.@1997@@Prymnesiophyta; deviant genetic code; cytochrome c oxidase subunit I; the codon-capture theory@NIES-388@NIES388@NIES-8@NIES8@NIES-353@NIES353
1069@Hayashi-Ishimaru, Y., Ohama, T., Kawatsu, Y., Nakamura, K., Osawa, S.@UAG is a sense codon in several chlorophycean mitochondria.@Curr. Genet.,@30,@29-33.@1996@@deviant genetic code; COXI; Chlorophyceaen mitochondria; release factor@NIES-209@NIES209@NIES-415@NIES415@NIES-227@NIES227@NIES-96@NIES96
1070@Hepperle, D., Nozaki, H., Hohenberger, S., Huss, V. A. R., Morita, E., Krienitz, L.@Phylogenetic position of the Phacotaceae within the Chlamydophyceae as revealed by analysis of 18S rDNA and rbcL sequences.@J. Mol. Evol.,@47,@420-430.@1998@@Phacotaceae; Volvocales; 18S rDNA phylogeny; lorica-bearing flagellates; green algae@NIES-861@NIES861@NIES-446@NIES446@NIES-858@NIES858@NIES-859@NIES859@NIES-862@NIES862
1071@Hino, S.@An examination of algal bioassay method for agricultural chemicals and heavy metals in a water environment.@Hokkaido Kankyô Kagaku Kenkyû Sentâ Syohô,@18,@41-49 (in Japanese with English summary).@1991@@@NIES-228@NIES228@NIES-229@NIES229
1072@Hirabayashi, R. & Imamura, N.@Action mechanism of a selective anti-cyanobacterial compound, argimicin A.@J. Antibiotics,@56,@154-159.@2003@@@NIES-230@NIES230@NIES-45@NIES45@NIES-204@NIES204@NIES-592@NIES592@NIES-81@NIES81@NIES-41@NIES41@NIES-102@NIES102@NIES-298@NIES298
1073@Hiroishi, S., Nakai, R., Seto, H., Yoshida, T., Imai, I.@Identification of Heterocapsa circularisquama by means of antibody.@Fish. Sci.,@68, Suppl.,@627-628.@2002@@identification; Heterocapsa; dinoflagellate; antibody@NIES-473@NIES473@NIES-472@NIES472@NIES-7@NIES7@NIES-235@NIES235
1074@Hiroishi, S., Uchida, A., Nagasaki, K., Ishida, Y.@A new method for identification of inter- and intra-species of the red tide algae Chattonella antiqua and Chattonella marina (Raphidophyceae) by means of monoclonal antibodies.@J. Phycol.,@24,@442-444.@1988@@Chattonella; identification; immunofluorescence; inter-species; intra-species; method; monoclonal antibody; red tide@NIES-116@NIES116@NIES-2@NIES2@NIES-83@NIES83@NIES-114@NIES114@NIES-85@NIES85@NIES-113@NIES113@NIES-121@NIES121@NIES-1@NIES1@NIES-14@NIES14@NIES-86@NIES86@NIES-115@NIES115@NIES-118@NIES118@NIES-84@NIES84
1075@Hiroishi, S., Uchida, A., Nagasaki, K., Ishida, Y.@A new method for inter- and intra-species identification of red tide algae Chattonella antiqua and Chattonella marina by means of monoclonal antibodies.@In Red Tides: Biology, Environmental Science, and Toxicology, Eds. by Okaichi, T., Anderson, D. M. & Nemoto, T., Elsevier Science Pub., New York,@@pp. 299-300.@1989@@@NIES-85@NIES85@NIES-121@NIES121@NIES-86@NIES86@NIES-118@NIES118
1076@Hiroki, M., Shimizu, A., Li, R., Watanabe, M., Watanabe, M. M.@Development of a database system useful for identification of Anabaena spp. (Cyanobacteria).@Phycol. Res.,@46, Suppl.,@85-93.@1998@@Anabaena; computer; cyanobacteria; database system; identification; morphology@NIES-819@NIES819@NIES-826@NIES826@NIES-810@NIES810@NIES-835@NIES835
1077@Hiwatari, T., Kasai, F., Watanabe, M. M., Nei, T.@Cryopreservation of Scenedesmus acutus and Pediastrum duplex in liquid nitrogen - Survival and growth after freezing.@Jpn. J. Freez. Dry.,@30,@27-31 (in Japanese with English title).@1984@@@NIES-95@NIES95@NIES-213@NIES213
1078@Houdai, T., Matsuoka, S., Murata, M., Satake, M., Ota, S., Oshima, Y., Rhodes, L. L.@Acetate labeling patterns of dinoflagellate polyketides, amphidinols 2, 3 and 4.@Tetrahedron,@57,@5551-5555.@2001@@dinoflagellate; polyketides; biosynthesis; amphidinol; Amphidinium; isotopic labelling@NIES-613@NIES613
1079@Horiguchi, T.@Haramonas dimorpha gen. et sp. nov. (Raphidophyceae), a new marine raphidophyte from Australian mangrove.@Phycol. Res.,@44,@143-150.@1996@@Haramonas dimorpha gen et sp. nov.; mangrove; Raphidophyceae; taxonomy; tubular invagination; ultrastructure@NIES-716@NIES716
1080@Hosomi, M. & Sudo, R.@Studies on the effects of sediments on algal growth - Algal growth potential of sediments.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 6,@115-121 (in Japanese with English summary).@1979@@@NIES-35@NIES35
1081@Ichimura, T.@Sexual cell division and conjugation-papilla formation in sexual reproduction of Closterium strigosum.@In Proceedings of the Seventh International Seaweed Symposium, University of Tokyo Press, Tokyo,@@pp. 208-214.@1971@Medium (C)@@NIES-66@NIES66
1082@Ichimura, T.@The life cycle and its control in some species of Closterium, with special reference to the biological species problems.@Thesis D. Sci., University of Tokyo,@@69 pp., 11 tables, 40 figs.@1973@Medium (MG)@@NIES-177@NIES177@NIES-337@NIES337@NIES-66@NIES66@NIES-450@NIES450@NIES-451@NIES451@NIES-338@NIES338@NIES-202@NIES202@NIES-68@NIES68@NIES-127@NIES127@NIES-67@NIES67@NIES-185@NIES185@NIES-198@NIES198@NIES-180@NIES180@NIES-181@NIES181@NIES-183@NIES183@NIES-175@NIES175@NIES-125@NIES125@NIES-174@NIES174@NIES-176@NIES176@NIES-179@NIES179@NIES-182@NIES182
1083@Ichimura, T.@Mating types and reproductive isolation in Closterium ehrenbergii Meneghini.@Bot. Mag. Tokyo,@94,@325-334.@1981@@biosystematic study; Closterium ehrenbergii; mating group; mating type; reproductive isolation@NIES-228@NIES228@NIES-229@NIES229
1084@Ichimura, T.@Hybrid inviability and predominant survival of mating type minus progeny in laboratory crosses between two closely related mating groups of Closterium ehrenbergii.@Evolution,@37,@252-260.@1983@@@NIES-228@NIES228@NIES-229@NIES229
1085@Ichimura, T.@Chlamydomonas pulsatilla Wollenweber from a supra-littoral rockpool on a small island offshore the city of Muroran, Hokkaido, Japan.@Algol. Stud.,@85,@23-29.@1997@@Chlamydomonas pulsatilla; euryhaline species; acetate; nutrition; supra-littoral rockpool@NIES-122@NIES122
1086@Ichimura, T. & Itoh, T.@17. Preservation methods of microalgae (I) [17. Bisaisôrui no hozonhô (I)].@In Preservation methods of microorganisms [Biseibutsu Hozonhô], Ed. by Nei, T., University of Tokyo Press, Tokyo,@@pp. 355-373 (in Japanese).@1977@Medium (CC, MBM, O, Pro, Tre, VTYT, YT, Fe solution)@@NIES-217@NIES217@NIES-19@NIES19@NIES-21@NIES21@NIES-22@NIES22@NIES-23@NIES23@NIES-24@NIES24@NIES-27@NIES27@NIES-28@NIES28@NIES-30@NIES30@NIES-31@NIES31@NIES-32@NIES32@NIES-33@NIES33@NIES-34@NIES34@NIES-36@NIES36@NIES-37@NIES37@NIES-38@NIES38@NIES-39@NIES39@NIES-40@NIES40@NIES-41@NIES41@NIES-44@NIES44@NIES-45@NIES45@NIES-46@NIES46@NIES-47@NIES47@NIES-48@NIES48@NIES-49@NIES49@NIES-50@NIES50@NIES-122@NIES122@NIES-123@NIES123@NIES-127@NIES127@NIES-131@NIES131@NIES-144@NIES144@NIES-152@NIES152@NIES-173@NIES173@NIES-175@NIES175@NIES-179@NIES179@NIES-180@NIES180@NIES-181@NIES181@NIES-182@NIES182@NIES-183@NIES183@NIES-185@NIES185@NIES-198@NIES198@NIES-200@NIES200@NIES-203@NIES203@NIES-206@NIES206@NIES-226@NIES226@NIES-227@NIES227@NIES-241@NIES241@NIES-266@NIES266@NIES-267@NIES267@NIES-268@NIES268@NIES-295@NIES295@NIES-309@NIES309@NIES-310@NIES310@NIES-334@NIES334@NIES-338@NIES338@NIES-379@NIES379@NIES-436@NIES436@NIES-448@NIES448@NIES-450@NIES450@NIES-455@NIES455@NIES-527@NIES527
1087@Ichimura, T. & Kasai, F.@Post-zygotic isolation between allopatric mating groups of Closterium ehrenbergii Meneghini (Conjugato-phyceae).@Phycologia,@23,@77-85.@1984@@@NIES-228@NIES228@NIES-229@NIES229
1088@Ichimura, T. & Kasai, F.@Time lapse analyses of sexual reproduction in Closterium ehrenbergii (Conjugatophyceae).@J. Phycol.,@20,@258-265.@1984@@Closterium ehrenbergii; conjugation; desmids; mating type; sexual reproduction@NIES-228@NIES228@NIES-229@NIES229
1089@Ichimura, T. & Kasai, F.@Studies on the life cycle of Spinoclosterium cuspidatum (Bailey) Hirano (Conjugatophyceae).@Phycologia,@24,@205-216.@1985@@@NIES-325@NIES325
1090@Ichimura, T. & Kasai, F.@Time-lapse analyses of sexual isolation between two closely related mating groups of the Closterium ehrenbergii species complex (Chlorophyta).@J. Phycol.,@23,@523-534.@1987@@Closterium ehrenbergii; desmids; mating group; multiple-choice mating; no-choice mating; sexual interactions; sexual isolation; time-lapse photomicrography@NIES-228@NIES228@NIES-229@NIES229
1091@Ichimura, T. & Kasai, F.@Life cycles of homothallic and heterothallic clones of Triploceras gracile Bailey (Desmidiaceae, Chlorophyta).@Phycologia,@28,@212-221.@1989@@@NIES-789@NIES789@NIES-790@NIES790@NIES-791@NIES791@NIES-792@NIES792@NIES-793@NIES793@NIES-794@NIES794@NIES-795@NIES795@NIES-796@NIES796
1092@Ichimura, T. & Watanabe, M.@The Closterium calosporum complex from the Ryukyu Islands - Variation and taxonomical problems.@Mem. Natn. Sci. Mus. Tokyo,@7,@89-102, pls. 13-14.@1974@Medium (CA)@@NIES-163@NIES163@NIES-164@NIES164@NIES-168@NIES168@NIES-340@NIES340@NIES-186@NIES186@NIES-341@NIES341@NIES-165@NIES165@NIES-339@NIES339@NIES-187@NIES187@NIES-194@NIES194
1093@Ichimura, T. & Watanabe, M. M.@An axenic clone of Microcystis aeruginosa Kutz. emend. Elenkin from Lake Kasumigaura.@Bull. Jpn. Soc. Phycol.,@25,@177-181.@1977@Medium (B-I, B-II, B-III, B-IV, B-V)@@NIES-44@NIES44
1094@Iino, M. & Hashimoto, H.@Intermediate features of cyanelle division of Cyanophora paradoxa (Glaucocystophyta) between cyanobacterial and plastid division.@J. Phycol.,@39,@561-569.@2003@@chloroplast division; cyanelle; Cyanophora paradoxa; endosymbiosis; Glaucocystophyta; peptidoglycan; plastid dividing-ring; plastid division; plastid envelope@NIES-547@NIES547
1095@Ikegami, S., Imai, I., Kato, J., Ohtake, H.@Chemotaxis toward inorganic phosphate in the red tide alga Chattonella antiqua.@J. Plankton Res.,@17,@1587-1591.@1995@@@NIES-1@NIES1
1096@Ikushima, T.@Action of furylfuramide (AF-2) on chloroplasts of Euglena gracilis.@Annu. Rep. Res. Reactor Inst. Kyoto Univ.,@8,@83-85.@1975@@@NIES-48@NIES48
1097@Imai, A., Fukushima, T., Matsushige, K.@Effects of aquatic humic substances on the growth of the cyanobacterium Microcystis aeruginosa.@J. Jpn. Soc. Wat. Environ. [Mizukankyô Gakkai Shi],@22,@555-560 (in Japanese with English summary).@1999@@aquatic humic substances; Microcystis aeruginosa; iron limitation; siderophore; Lake Kasumigaura@NIES-98@NIES98
1098@Imai, A., Fukushima, T., Matsushige, K.@Effects of iron limitation and aquatic humic substances on the growth of Microcystis aeruginosa.@Can. J. Fish. Aquat. Sci.,@56,@1929-1937.@1999@@@NIES-98@NIES98
1099@Imai, I., Ishida, Y., Hata, Y.@Killing of marine phytoplankton by a gliding bacterium Cytophaga sp., isolated from the coastal sea of Japan.@Mar. Biol.,@116,@527-532.@1993@@@NIES-1@NIES1
1100@Imai, I., Ishida, Y., Sakaguchi, K., Hata, Y.@Algicidal marine bacteria isolated from northern Hiroshima Bay, Japan.@Fish. Sci.,@61,@628-636.@1995@@algicidal bacteria; red tide; Chattonella; Alteromonas@NIES-1@NIES1
1101@Imai, I., Ishida, Y., Sawayama, S., Hata, Y.@Isolation of a marine gliding bacterium that kills Chattonella antiqua (Raphidophyceae).@Nippon Suisan Gakkaishi,@57,@1409.@1991@@@NIES-1@NIES1
1102@Imai, I., Kim, M. C., Nagasaki, K., Itakura, S., Ishida, Y.@Detection and enumeration of microorganisms that are lethal to harmful phytoplankton in coastal waters.@Plankton Biol. Ecol.,@45,@19-29.@1998@@red tide; Chattonella; Heterosigma; killer bacteria; viruses@NIES-1@NIES1
1103@Imai, I., Kim, M. C., Nagasaki, K., Itakura, S., Ishida, Y.@Relationships between dynamics of red tide-causing raphidophycean flagellates and algicidal micro-organisms in the coastal sea of Japan.@Phycol. Res.,@46,@139-146.@1998@@algicidal bacteria; Chattonella; Heterosigma; Raphidophyceae; red tide; virus@NIES-1@NIES1
1104@Imai, I., Nakagiri, S., Nagai, K., Nagasaki, K., Itakura, S., Yamaguchi, M.@Fluctuations of algicidal microorganisms against the harmful dinoflagellate Heterocapsa circularisquama in Ago Bay, Mie Prefecture, Japan.@Bull. Nansei Natl. Fish. Res. Inst.,@31,@53-61 (in Japanese with English summary).@1998@@red tide; Heterocapsa circularisquama; algicidal bacteria; viruses; Ago Bay@NIES-1@NIES1
1105@Imamura, N., Motoike, I., Noda, M., Adachi, K., Konno, A., Fukami, H.@Argimicin A, a novel anti-cyanobacterial compound produced by an algae-lysing bacterium.@J. Antibiotics,@53,@1317-1319.@2000@@@NIES-102@NIES102@NIES-298@NIES298
1106@Imamura, N., Motoike, I., Shimada, N., Nishikori, M., Morisaki, H., Fukami, H.@An efficient screening approach for anti-Microcystis compounds based on knowledge of aquatic microbial ecosystem.@J. Antibiotics,@54,@582-587.@2001@@@NIES-228@NIES228@NIES-102@NIES102
1107@Inagaki, Y., Ehara, M., Watanabe, K. I., Hayashi-Ishimaru, Y., Ohama, T.@Directionally evolving genetic code: the UGA codon from stop to tryptophan in mitochondria.@J. Mol. Evol.,@47,@378-384.@1998@@COXI phylogenetic tree; UGA codon; deviant genetic code; directional codon reassignment@NIES-12@NIES12@NIES-227@NIES227@NIES-274@NIES274
1108@Inagaki, Y., Hayashi-Ishimaru, Y., Ehara, M., Igarashi, I., Ohama, T.@Algae or protozoa: phylogenetic position of euglenophytes and dinoflagellates as inferred from mitochondrial sequences.@J. Mol. Evol.,@45,@295-300.@1997@@mitochondrial COXI gene; Dinoflagellata; Apicomplexa; Kinetoplastida; Euglenophyta; endosymbiosis; genetic code; malarian circle@NIES-12@NIES12@NIES-381@NIES381
1109@Inamori, Y., Ohno, Y., Kaya, K., Watanabe, M. M., Sudo, R.@Studies on the removal and decomposition of Microcystis viridis toxic substance in the bio-film reactor.@Jpn. J. Water Poll. Res.,@13,@525-530 (in Japanese with English summary).@1990@@Microcystis viridis; toxic substance cyanoviridin; bio-film reactor; hydraulic retention time@NIES-102@NIES102
1110@Iseki, M., Matsunaga, S., Murakami, A., Ohno, K., Shiga, K., Yoshida, K., Sugai, M., Takahashi, T., Hori, T., Watanabe, M.@A blue-light-activated adenylyl cyclase mediates photoavoidance in Euglena gracilis.@Nature,@415,@1047-1051.@2002@@@NIES-48@NIES48
1111@Ishibashi, Y., Ichiyanagi, J., Gotoh, M., Konno, H.@Culture conditions and characteristics of offensive odor-producing substance in the genus Uroglena [Uroglena zoku no baiyôjôken to syûkibusshitsu tokusei].@In Proceedings of 27th Annual Meeting of Japan Society on Water Environment [Dai 27kai Nippon Mizukankyô-Gakkai Nenkaikôensyû],@@pp. 282-283 (in Japanese with English title).@1993@@@NIES-395@NIES395
1112@Ishida, K., Matsuda, H., Murakami, M.@Micropeptins 88-A to 88-F, chymotrypsin inhibitors from the cyanobacterium Microcystis aeruginosa (NIES-88).@Tetrahedron,@54,@5545-5556.@1998@@@NIES-88@NIES88
1113@Ishida, K., Matsuda, H., Murakami, M.@Four new microginins, linear peptides from the cyanobacterium Microcystis aeruginosa.@Tetrahedron,@54,@13475-13484.@1998@@@NIES-299@NIES299@NIES-99@NIES99
1114@Ishida, K., Matsuda, H., Murakami, M., Yamaguchi, K.@Kawaguchipeptin A, a novel cyclic undecapeptide from cyanobacterium Microcystis aeruginosa (NIES-88).@Tetrahedron,@52,@9025-9030.@1996@@@NIES-88@NIES88
1115@Ishida, K., Matsuda, H., Murakami, M., Yamaguchi, K.@The absolute stereochemistry of micropeptin 90.@Tetrahedron Letters,@37,@9225-9226.@1996@@@NIES-90@NIES90
1116@Ishida, K., Matsuda, H., Murakami, M., Yamaguchi, K.@Kawaguchipeptin B, an antibacterial cyclic undecapeptide from the cyanobacterium Microcystis aeruginosa.@J. Nat. Prod.,@60,@724-726.@1997@@@NIES-88@NIES88
1117@Ishida, K., Matsuda, H., Murakami, M., Yamaguchi, K.@Microginins 299-A and -B, leucine aminopeptidase inhibitors from the cyanobacterium Microcystis aeruginosa (NIES-299).@Tetrahedron,@53,@10281-10288.@1997@@@NIES-299@NIES299
1118@Ishida, K., Matsuda, H., Murakami, M., Yamaguchi, K.@Micropeptins 478-A and -B, plasmin inhibitors from the cyanobacterium Microcystis aeruginosa.@J. Nat. Prod.,@60,@184-187.@1997@@@NIES-478@NIES478
1119@Ishida, K. & Murakami, M.@Kasumigamide, an antialgal peptide from the cyanobacterium Microcystis aeruginosa.@J. Org. Chem.,@65,@5898-5900.@2000@@@NIES-87@NIES87@NIES-439@NIES439
1120@Ishida, K., Murakami, M., Matsuda, H., Yamaguchi, K.@Micropeptin 90, a plasmin and trypsin inhibitor from the blue-green alga Microcystis aeruginosa (NIES-90).@Tetrahedron Letters,@36,@3535-3538.@1995@@@NIES-90@NIES90
1121@Ishida, K., Nakagawa, H., Murakami, M.@Microcyclamide, a cytotoxic cyclic hexapeptide from the cyanobacterium Microcystis aeruginosa.@J. Nat. Prod.,@63,@1315-1317.@2000@@@NIES-298@NIES298
1122@Ishida, K., Okita, Y., Matsuda, H., Okino, T., Murakami, M.@Aeruginosins, protease inhibitors from the cyanobacterium Microcystis aeruginosa.@Tetrahedron,@55,@10971-10988.@1999@@@NIES-89@NIES89@NIES-98@NIES98@NIES-298@NIES298
1123@Ishimitsu, M. & Chihara, M.@Four species of Cryptomonas (Class Cryptophyceae) in Japan.@J. Jpn. Bot.,@59,@161-169.@1984@@@NIES-344@NIES344@NIES-346@NIES346@NIES-282@NIES282@NIES-347@NIES347@NIES-279@NIES279@NIES-277@NIES277@NIES-280@NIES280@NIES-275@NIES275@NIES-278@NIES278@NIES-345@NIES345@NIES-348@NIES348@NIES-281@NIES281@NIES-276@NIES276@NIES-274@NIES274
1124@Ishitsuka, M. O., Kusumi, T., Kakisawa, H., Kaya, K., Watanabe, M. M.@Microviridin: a novel tricyclic depsipeptide from the toxic cyanobacterium Microcystis viridis.@J. Am. Chem. Soc.,@112,@8180-8182.@1990@@@NIES-102@NIES102
1125@Itoh, Y., Murakami, H., Ikeda, R.@Studies on the growth limiting nutrients of red tide plankton in the tidal area [Kanchô-iki ni okeru akashio gen'in sôrui no zôshoku yokusei inshi no suitei].@Proc. Coast. Engineering, JSCE [Kaigan Kôgaku Ronbun-shû],@40,@1001-1005 (in Japanese without English title).@1993@@@NIES-323@NIES323
1126@Itou, Y., Ishida, K., Shin, H. J., Murakami, M.@Oscillapeptins A to F, serine protease inhibitors from the three strains of Oscillatoria agardhii.@Tetrahedron,@55,@6871-6882.@1999@@@NIES-596@NIES596@NIES-204@NIES204@NIES-205@NIES205
1127@Itou, Y., Okada, S., Murakami, M.@Two structural isomeric siderophores from the freshwater cyanobacterium Anabaena cylindrica (NIES-19).@Tetrahedron,@57,@9093-9099.@2001@@iron; sidenophore; cyanobacteria; Anabaena cylindrica; CAS@NIES-19@NIES19
1128@Itou, Y., Suzuki, S., Ishida, K., Murakami, M.@Anabaenopeptins G and H, potent carboxypeptidase A inhibitors from the cyanobacterium Oscillatoria agardhii (NIES-595).@Bioorg. Med. Chem. Lett.,@9,@1243-1246.@1999@@@NIES-595@NIES595
1129@Iwahori, K., Miyata, N., Umeda, Y., Aoyama, K., Shimoi, K., Kinae, N.@Applicability of environmental microorganisms to alkaline single cell gel electrophoresis (comet) assay.@Jpn. J. Water Treat. Biol.,@35,@261-270 (in Japanese with English summary).@1999@@comet assay; DNA damage; environmental microorganisms; Euglena gracilis; cell lysis; unwinding; electrophoresis; SDS; γ-irradiation@NIES-49@NIES49@NIES-122@NIES122@NIES-403@NIES403
1130@Iwami, N., Inamori, Y., Sugiura, N., Matsumura, M.@Degradation characteris-tics of toxic Microcystis viridis by Mastigophora, Monas guttula using aquatic large scale microcosm.@J. Jpn. Soc. Wat. Environ.,@19,@140-146.@1996@@degradation; Microcystis; microflagellate; toxic substance; aquatic large scale microcosm@NIES-102@NIES102
1131@Iwamoto, K. & Ikawa, T.@A novel glycolate oxidase requiring flavin mononucleotide as the cofactor in the prasinophycean alga Mesostigma viride.@Plant Cell Physiol.,@41,@988-991.@2000@@flavin mononucleotide (FMN)-requiring enzyme; glycolate metabolism; glycolate oxidase; glycolate-oxidizing enzyme; Mesostigma viride; Prasinophyceae@NIES-296@NIES296
1132@Iwasaki, H. & Sasada, K.@Studies on the red tide dinoflagellates - II. On Heterosigma inlandica appeared in Gokasho Bay, Shima Peninsula.@Bull. Jpn. Soc. Sci. Fish.,@35,@943-947 (in Japanese with English summary).@1969@@@NIES-5@NIES5
1133@Iwata, H., Haji, A., Hashimoto, K., Mitsuyanagi, K., Kanegae, Y.@Methods for producing heat-unsoluble β-1,3-glucan [Kanetsu gyôkosei β-1,3-glucan no seizôhô].@In Nippon-koku Tokkyo-chô (JP), Kôkai Tokkyo Kôhô (A), Hei3-163102,@@5 pp. (in Japanese).@1991@@@NIES-47@NIES47@NIES-48@NIES48@NIES-49@NIES49
1134@Jang, M-H., Ha, K., Joo, G-J., Takamura, N.@Toxin production of cyanobacteria is increased by exposure to zooplankton.@Freshw. Biol.,@48,@1540-1550.@2003@@info-chemicals; microcystin production; Microcystis aeruginosa; zooplankton; zooplankton culture media filtrate@NIES-44@NIES44@NIES-88@NIES88@NIES-87@NIES87@NIES-99@NIES99
1135@Johnson, L. M., Hoagland, K. D., Gretz, M. R.@Effects of bromide and iodine on stalk secretion in the biofouling diatom Achnanthes longipes (Bacillariophyceae).@J. Phycol.,@31,@401-412.@1995@@Achnanthes longipes; Bacillariophyceae; biofouling; bromide; diatom; EPS secretion; image analysis; inhibition of adhesion; iodine; Lotus-FITC; stalks@NIES-330@NIES330
1136@Kajiwara, S., Kakizono, T., Saito, T., Kondo, K., Ohtani, T., Nishio, N., Nagai, S., Misawa, N.@Isolation and functional identification of a novel cDNA for astaxanthin biosynthesis from Haematococcus pluvialis, and astaxanthin synthesis in Escherichia coli.@Plant Mol. Biol.,@29,@343-352.@1995@@astaxanthin; canthaxanthin; carotenoid; xanthophyll; Haematococcus pluvialis; green alga@NIES-144@NIES144
1137@Kakizono, T., Kobayashi, M., Nagai, S.@Effect of carbon/nitrogen ratio on encystment accompanied with astaxanthin formation in a green alga, Haematococcus pluvialis.@J. Ferment. Bioeng.,@74,@403-405.@1992@@@NIES-144@NIES144
1138@Kaneko, H. & Yamaguchi, M.@Toxicity evaluation of municipal solid waste incinerator fly ash by algal assay.@Reports Facul. Eng. Yamanashi Univ.,@46,@84-89 (in Japanese with English summary).@1995@@@NIES-35@NIES35
1139@Kaneko, H., Yamaguchi, M., Ikeda, F.@Toxicity of municipal solid waste incinerator fly ash and the contribution of Cadmium.@J. Jpn. Soc. Wat. Environ. [Mizukankyô Gakkai Shi],@19,@563-568 (in Japanese with English summary).@1996@@MWI fly ash; leachate; algal assay; Daphnia test; hazardous waste@NIES-35@NIES35
1140@Kang, B.-H., Tan, S., Ho, K.-K.@Isolation of water-soluble cytochromes from cyanobacteria by adsorption chromatography.@Archi. Biochem. Biophys.,@263,@387-393.@1988@@@NIES-44@NIES44
1141@Kang, C. B. H. & Ho. K.-K.@Characteri-zation of a soluble inorganic pyrophosphatase from Microcystis aeruginosa.@Archi. Biochem. Biophys.,@289,@281-288.@1991@@@NIES-44@NIES44
1142@Kasai, F. & Arts, M. T.@The interactive effects of UV-B radiation and a herbicide on uptake and allocation of carbon in two strains of the green alga Scenedesmus.@Aquat. Ecol.,@31,@261-272.@1998@@herbicide tolerance; photosynthesis; phytoplankton; simetryn; triazine herbicides; ultraviolet radiation@NIES-802@NIES802
1143@Kasai, F. & Hanazato, T.@Genetic changes in phytoplankton communities exposed to the herbicide simetryn in outdoor experimental ponds.@Arch. Environ. Contam. Toxicol.,@28,@154-160.@1995@@@NIES-797@NIES797@NIES-798@NIES798@NIES-799@NIES799@NIES-800@NIES800@NIES-801@NIES801@NIES-802@NIES802
1144@Kasai, F. & Hatakeyama, S.@Herbicide susceptibility in two green algae, Chlorella vulgaris and Selenastrum capricornutum.@Chemosphere,@27,@899-904.@1993@@@NIES-35@NIES35@NIES-227@NIES227
1145@Kasai, F. & Hatakeyama, S.@Changes in herbicide susceptibility of algae in a river running through an agricultural region.@Ecol. Chem. (St.Petersburg),@5,@292-296.@1996@@algal community; herbicide; simetryn; pretilachlor; pollution; effects@NIES-803@NIES803@NIES-805@NIES805@NIES-804@NIES804
1146@Kasai, F. & Ichimura, T.@Morphological variabilities of three closely related mating groups of Closterium ehrenbergii Meneghini (Chlorophyta).@J. Phycol.,@22,@158-168.@1986@@cell shape and size; clonal culture; Closterium ehrenbergii; mating group; morphological variability; statistical analysis@NIES-171@NIES171@NIES-228@NIES228@NIES-229@NIES229
1147@Kasai, F. & Ichimura, T.@Temperature optima of three closely related mating groups of the Closterium ehrenbergii (Chlorophyta) species complex.@Phycologia,@29,@396-402.@1990@@@NIES-228@NIES228@NIES-229@NIES229
1148@Kasai, F., Takamura, N., Hatakeyama, S.@Effects of simetryne on growth of various freshwater algal taxa.@Environ. Pollut.,@79,@77-83.@1993@@@NIES-230@NIES230@NIES-231@NIES231@NIES-275@NIES275@NIES-280@NIES280@NIES-77@NIES77@NIES-137@NIES137@NIES-35@NIES35@NIES-44@NIES44@NIES-73@NIES73@NIES-102@NIES102@NIES-298@NIES298@NIES-151@NIES151@NIES-255@NIES255
1149@Kato, A., Obokata, J., Sasaki, K.@Mating type interaction in Closterium peracerosum-strigosum-littorale: mating induced protoplast release.@Plant Cell Physiol.,@22,@1215-1222.@1981@@Closterium peracerosum-strigosum-littorale; conjugation; disruped cell; mating type interaction; protoplast release@NIES-64@NIES64@NIES-65@NIES65
1150@Kato, A., Ohmura, K., Kanazawa, H., Sasaki, K.@Natural and artificial production of protoplasts from heterothallic and homothallic Closterium.@J. Fac. Sci., Hokkaido Univ., Ser. V (Bot.),@13,@7-15.@1983@@@NIES-64@NIES64@NIES-65@NIES65
1151@Kato, A. & Sasaki, K.@Effects of tunica-mycin on sexual reproduction in heterothallic strains of Closterium.@J. Fac. Sci., Hokkaido Univ., Ser. V (Bot.),@13,@1-6.@1983@@@NIES-65@NIES65@NIES-64@NIES64
1152@Kato, T., Watanabe, M. F., Watanabe M.@Allozyme divergence in Microcystis (Cyanophyceae) and its taxonomic inference.@Algol. Stud.,@64,@129-140.@1991@@cyanophytes/cyanobacteria; Microcystis; allozyme divergence; allozyme genotype; allozyme study; cell size; molecular taxonomy@NIES-1074@NIES1074@NIES-1068@NIES1068@NIES-1079@NIES1079@NIES-1081@NIES1081@NIES-1084@NIES1084@NIES-1093@NIES1093@NIES-1098@NIES1098@NIES-1061@NIES1061@NIES-1090@NIES1090@NIES-1058@NIES1058@NIES-1091@NIES1091@NIES-1070@NIES1070@NIES-1097@NIES1097@NIES-1067@NIES1067@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1055@NIES1055@NIES-1086@NIES1086@NIES-1071@NIES1071
1153@Kato, T., Watanabe, M. F., Watanabe, M., Hara, Y.@Allozyme genotype and toxin omposition of the Microcystis strains from Lake Okutama-ko (1).@Bull. Natn. Sci. Mus., Tokyo, Ser.,@B 17,@1-4.@1991@@@NIES-1140@NIES1140@NIES-1145@NIES1145@NIES-1152@NIES1152@NIES-1159@NIES1159@NIES-1160@NIES1160@NIES-1161@NIES1161@NIES-1163@NIES1163@NIES-1141@NIES1141
1154@Kato-Minoura, T., Okumura, M., Hirono, M., Kamiya, R.@A novel family of unconventional actins in Volvocalean algae.@J. Mol. Evol.,@57,@555-561.@2003@@Chlamydomonas; phylogeny; Volvocales@NIES-158@NIES158@NIES-351@NIES351@NIES-546@NIES546@NIES-569@NIES569
1155@Kawai, H., Maeba, S., Sasaki, H., Okuda, K., Henry, E. C.@Schizocladia ischiensis: a new filamentous marine chromophyte belonging to a new class, Schizocladiophyceae.@Protist,@154,@211-228.@2003@@@NIES-1044@NIES1044
1156@Kawanobe, K.@A report in the completion of the research work [Chôsa kenkyû syûryô hôkoku].@Unpublished report in Kankyô Hozen Kyôkai,@@3 pp. (in Japanese).@1990@@@NIES-35@NIES35@NIES-227@NIES227
1157@Kaya, K. & Sano, T.@A photodetoxifi-cation mechanism of the cyanobacterial hepatotoxin microcystin-LR by ultraviolet irradiation.@Chem. Res. Toxicol.,@11,@159-163.@1998@@@NIES-88@NIES88
1158@Kaya, K. & Watanabe, M. M.@Microcystin composition of an axenic clonal strain of Microcystis viridis and Microcystis viridis-containing waterblooms in Japanese freshwaters.@J. Appl. Phycol.,@2,@173-178.@1990@@axenic Microcystis viridis; microcystin; toxic waterbloom; Japanese lakes@NIES-102@NIES102
1159@Kim, D., Nakamura, A., Okamoto, T., Komatsu, N., Oda, T., Ishimatsu, A., Muramatsu, T.@Toxic potential of the raphidophyte Olisthodiscus luteus: mediation by reactive oxygen species.@J. Plankton Res.,@21,@1017-1027.@1999@@@NIES-15@NIES15
1160@Kim, D., Oda, T., Ishimatsu, A., Muramatsu, T.@Galacturonic-acid-induced increase of superoxide production in red tide phytoplankton Chattonella marina and Heterosigma akashiwo.@Biosci. Biotechnol. Biochem., @64,@911-914.@2000@@red tide plankton; Chattonella marina; Heterosigma akashiwo; galacturonic acid; reactive oxygen species@NIES-6@NIES6
1161@Kim, D., Okamoto, T., Oda, T., Tachibana, K., Lee, K. S., Ishimatsu, A., Matsuyama, Y., Honjo, T., Muramatsu, T.@Possible involvement of the glycocalyx in the ichthyotoxicity of Chattonella marina (Raphidophyceae): immunological approach using antiserum against cell surface structures of the flagellate.@Mar. Biol.,@139,@625-632.@2001@@@NIES-15@NIES15@NIES-6@NIES6
1162@Kim, D., Sato, Y., Oda, T., Muramatsu, T., Matsuyama, Y., Honjo, T.@Specific toxic effect of dinoflagellate Heterocapsa circularisquama on the rotifer Brachionus plicatilis.@Biosci. Biotechnol. Biochem., @64,@2719-2722.@2000@@red tide; Heterocapsa circularisquama; rotifer; toxicity; dinoflagellate@NIES-6@NIES6
1163@Kim, M.-C., Yoshinaga, I., Imai, I., Nagasaki, K., Itakura, S., Ishida, Y.@A close relationship between algicidal bacteria and termination of Heterosigma akashiwo (Raphidophyceae) blooms in Hiroshima Bay, Japan.@Mar. Ecol. Prog. Ser.,@170,@25-32.@1998@@algicidal bacteria; marine bacteria; marine phytoplankton; red tide; bloom; Raphidophyceae; Heterosigma akashiwo@NIES-1@NIES1
1164@Kim, Y.-S., Oyaizu, H., Matsumoto, S, Watanabe, M. M., Nozaki, H.@Chloroplast small-subunit ribosomal RNA gene sequence from Chlamydomonas parkeae (Chlorophyta) : molecular phylogeny of a green alga with a peculiar pigment composition.@Eur. J. Phycol.,@29,@213-217.@1994@@Chlamydomonas parkeae; Chlorophyta; chloroplast small-subunit (SSU) rRNA; phylogeny; pigment composition@NIES-440@NIES440@NIES-666@NIES666@NIES-228@NIES228@NIES-468@NIES468@NIES-254@NIES254
1165@Kimura, B. & Ishida, Y.@Photophago-trophy in Uroglena americana , Chrysophyceae.@Jpn. J. Limnol.,@46,@315-318.@1985@Medium (URO)@@NIES-395@NIES395
1166@Kimura, B. & Ishida, Y.@Possible phago-trophic feeding of bacteria in a freshwater red tide Chrysophyceae Uroglena americana.@Bull. Jpn. Soc. Sci. Fish.,@52,@697-701.@1986@@@NIES-395@NIES395
1167@Kimura, B., Ishida, Y., Kadota, H.@Effect of naturally collected bacteria on growth of Uroglena americana, a freshwater red tide Chrysophyceae.@Bull. Jpn. Soc. Sci. Fish.,@52,@691-696.@1986@@@NIES-395@NIES395
1168@Kinugawa, K., Etoh, M., Kuba, T., Kusuda, T.@A possibility of control and prevention of excessive phytoplankton growth by photochromism.@J. Jpn. Soc. Wat. Environ.,@22,@932-937 (in Japanese with English summary).@1999@@photochromism; spironaphthoxazine; shielding sunlight; algal growth potential; eutrophication@NIES-98@NIES98
1169@Kiyohara, T., Fujita, Y., Hattori, A., Watanabe, A.@Effect of light on glucose assimilation in Tolypothrix tenuis.@J. Gen. Appl. Microbiol.,@8,@165-168.@1962@@@NIES-37@NIES37
1170@Kobayashi, H., Ohta, S., Murao, N., Tachibana, H., Yamagata, S.@Radiative transfer model for satellite remote sensing of ocean colors in coastal zones.@J. Global Environ. Eng.,@6,@13-31.@2000@@equation of radiative transfer; coastal pollution; discharge of soil particle; red tide@NIES-16@NIES16
1171@Kobayashi, M., Hirai, N., Kurimura, Y., Ohigashi, H., Tsuji, Y.@Abscisic acid-dependent algal morphogenesis in the unicellular green alga Haematococcus pluvialis.@Plant Growth Regulation,@22,@79-85.@1997@@abscisic acid; active oxygen; carotenoid; cyst formation; drought stress; Haematococcus pluvialis@NIES-144@NIES144
1172@Kobayashi, M., Kakizono, T., Nagai, S.@Astaxanthin production by a green alga, Haematococcus pluvialis accompanied with morphological changes in acetate media.@J. Ferment. Bioeng.,@71,@335-339.@1991@@@NIES-144@NIES144
1173@Kobayashi, M., Kakizono, T., Nagai, S.@Enhanced carotenoid biosynthesis by oxidative stress in acetate-induced cyst cells of a green unicellular alga, Haematococcus pluvialis.@Appl. Environ. Microbiol.,@59,@867-873.@1993@@@NIES-144@NIES144
1174@Kobayashi, M., Kakizono, T., Nagai, S.@Photo-dependent astaxanthin biosynthesis in a green alga, Haematococcus pluvialis.@Seibutsu-Kôgaku,@71,@233-237 (in Japanese with English summary).@1993@@@NIES-144@NIES144
1175@Kobayashi, M., Kakizono, T., Nishio, N., Nagai, S.@Effects of light intensity, light quality, and illumination cycle on astaxanthin formation in a green alga, Haematococcus pluvialis.@J. Ferment. Bioeng.,@74,@61-63.@1992@@@NIES-144@NIES144
1176@Kobayashi, M., Kakizono, T., Nishio, N., Nagai, S., Kurimura, Y., Tsuji, Y.@Antioxidant role of astaxanthin in the green alga Haematococcus pluvialis.@Appl. Microbiol. Biotechnol.,@48,@351-356.@1997@@@NIES-144@NIES144
1177@Kobayashi, M., Kakizono, T., Yamaguchi, K., Nishio, N., Nagai, S.@Growth and asta-xanthin formation of Haematococcus pluvialis in heterotrophic and mixotrophic conditions.@J. Ferment. Bioeng.,@74,@17-20.@1992@@@NIES-144@NIES144
1178@Kobayashi, M., Kurimura, Y., Kakizono, T., Nishio, N., Tsuji, Y.@Morphological changes in the life cycle of the green alga Haematococcus pluvialis.@J. Ferment. Bioeng.,@84,@94-97.@1997@@astaxanthin; encystment; germination; Haematococcus pluvialis; life cycle; maturation@NIES-144@NIES144
1179@Kobayashi, M., Kurimura, Y., Sakamoto, Y., Tsuji, Y.@Selective extraction of astaxanthin and chlorophyll from the green alga Haematococcus pluvialis.@Biotechnol. Tech.,@11,@657-660.@1997@@@NIES-144@NIES144
1180@Kobayashi, M., Kurimura, Y., Tsuji, Y.@Light-independent, astaxanthin production by the green microalga Haematococcus pluvialis under salt stress.@Biotechnol. Lett., @19,@507-509.@1997@@@NIES-144@NIES144
1181@Kobayashi, M., Todoroki, Y., Hirai, N., Kurimura, Y., Ohigashi, H., Tsuji, Y.@Biological activities of abscisic acid analogs in the morphological change of the green alga Haematococcus pluvialis.@J. Ferment. Bioeng.,@85,@529-531.@1998@@abscisic acid; astaxanthin; carotenogenesis; drought stress; encystment; plant hormone; Haematococcus pluvialis@NIES-144@NIES144
1182@Kodani, S., Ishida, K., Murakami, M.@Dehydroradiosumin, a trypsin inhibitor from the cyanobacterium Anabaena cylindrica.@J. Nat. Prod.,@61,@854-856.@1998@@@NIES-19@NIES19
1183@Kodani, S., Ishida, K., Murakami, M.@Aeruginosin 103-A, a thrombin inhibitor from the cyanobactrium Microcystis viridis.@J. Nat. Prod.,@61,@1046-1048.@1998@@@NIES-103@NIES103
1184@Kodani, S., Ishida, K., Murakami, M.@Occurrence and identification of UDP-N-acetylmuramyl-pentapeptide from the cyanobacterium Anabaena cylindrica.@FEMS Microbiol. Lett.,@176,@321-325.@1999@@cyanobacterium; UDP-N-acetylmuramyl-pentapeptide; peptidoglycan@NIES-19@NIES19
1185@Kohata, K. & Watanabe, M.@The use of a controlled experimental ecosystem (Microcosm) in studies of mechanism of red tide outbreaks (II) - Growth of Heterosigma akashiwo, red tide flagellate, in Microcosm.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@111-121 (in Japanese with English summary).@1984@@@NIES-6@NIES6
1186@Kohata, K. & Watanabe, M.@Synchronous division and the pattern of diel vertical migration of Heterosigma akashiwo (Hada) Hada (Raphidophyceae) in a laboratory culture tank.@J. Exp. Mar. Biol. Ecol.,@100,@209-224.@1986@@cell division; culture tank; DCMU-induced fluorescence; Heterosigma akashiwo; vertical migration@NIES-6@NIES6
1187@Kohata, K. & Watanabe, M.@The use of a controlled experimental ecosystem (Microcosm) in studies of mechanism of red tide outbreaks (V) - Growth and cell volume change of Heterosigma akashiwo, a red tide flagellate.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 110,@57-66 (in Japanese with English summary).@1987@@@NIES-6@NIES6
1188@Kohata, K. & Watanabe, M.@The use of a controlled experimental ecosystem (Microcosm) in studies of mechanism of red tide outbreaks (VI) - Diurnal changes of C/N ratio and distribution of chloroplast pigments in the culture of Chattonella antiqua, a red tide flagellate.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 110,@67-77 (in Japanese with English summary).@1987@@@NIES-1@NIES1
1189@Kohata, K. & Watanabe, M.@The use of a controlled experimental ecosystem (Microcosm) in studies of mechanism of red tide outbreaks (VII) - Growth and its mathematical model of Heterosigma akashiwo, a red tide flagellate, in light-limited synchronous cultures.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 110,@79-88 (in Japanese with English summary).@1987@@@NIES-6@NIES6
1190@Kohata, K. & Watanabe, M.@Diel changes in the composition of photosynthetic pigments and cellular carbon and nitrogen in Chattonella antiqua (Raphidophyceae).@J. Phycol.,@24,@58-66.@1988@@carotenoids; cellular carbon; Chattonella antiqua; chlorophyll; diel change; laboratory culture tank; light-dark cycles@NIES-1@NIES1
1191@Kohata, K. & Watanabe, M.@Diel changes in the composition of photosynthetic pigments and cellular carbon and nitrogen in Pyramimonas parkeae (Prasinophyceae).@J. Phycol.,@25,@377-385.@1989@@carotenoids; cellurar carbon; chlorophyll; diel change; laboratory culture tank; light-dark cycles; loroxanthin dodecenoate; Pyremimonas parkeae@NIES-254@NIES254
1192@Kohata, K., Watanabe, M., Yamanaka, K.@Highly sensitive determination of photosynthetic pigments in marine in situ samples by high-performance liquid chromatography.@J. Chromatogr. A@558,@131-140.@1991@@@NIES-323@NIES323@NIES-353@NIES353@NIES-254@NIES254@NIES-7@NIES7@NIES-6@NIES6
1193@Kohata, K., Watanabe, M. M., Nakamura, Y., Watanabe, M.@Growth and phosphate uptake kinetics in Olisthodiscus luteus: grown on synchronized batch cultures.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@95-111 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1194@Koike, H., Shibata, M., Yasutomi, K., Kashino, Y., Satoh, K.@Identification of photosystem I components from a glaucocystophyte, Cyanophora paradoxa: The PsaD protein has an N-terminal stretch homologous to higher plants.@Photosynth. Res.,@65,@207-217.@2000@@Cyanophora paradoxa; glaucocystophyte; light harvesting complex; photosystem I; PsaD; PsaL@NIES-547@NIES547
1195@Kondo, F., Ikai, Y., Oka, H., Ishikawa, N., Watanabe, M. F., Watanabe, M., Harada, K., Suzuki, M.@Separation and identification of microcystins in cyanobacteria by frit-fast atom bombardment liquid chromatography / mass spectrometry.@Toxicon,@30,@227-237.@1992@@@NIES-1213@NIES1213
1196@Kondo, R., Kagiya, G., Hiroishi, S., Watanabe, M.@Genetic typing of a bloom-forming cyanobacterial genus Microcystis in Japan using 16S rRNA gene sequence analysis.@Plankton Biol. Ecol.,@47,@1-6.@2000@@genetic typing; 16S rDNA; Microcystis; cyanobacteria; phylogenetic analysis@NIES-1068@NIES1068@NIES-1076@NIES1076@NIES-105@NIES105@NIES-1090@NIES1090@NIES-1061@NIES1061@NIES-106@NIES106@NIES-108@NIES108@NIES-109@NIES109@NIES-1164@NIES1164@NIES-110@NIES110@NIES-100@NIES100@NIES-299@NIES299@NIES-1105@NIES1105@NIES-1091@NIES1091@NIES-111@NIES111@NIES-112@NIES112@NIES-1142@NIES1142@NIES-1055@NIES1055@NIES-1122@NIES1122@NIES-88@NIES88@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-91@NIES91@NIES-101@NIES101@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
1197@Kondo, R., Kagiya, G., Hiroishi, S., Watanabe, M., Hata, Y.@Rapid DNA extraction from a bloom-forming cyanobacterium.@Microbes Environ.,@14,@157-161.@1999@@DNA extraction; PCR; Microcystis; cyanobacteria@NIES-1068@NIES1068@NIES-105@NIES105@NIES-1090@NIES1090@NIES-1061@NIES1061@NIES-106@NIES106@NIES-108@NIES108@NIES-109@NIES109@NIES-1076@NIES1076@NIES-1164@NIES1164@NIES-110@NIES110@NIES-100@NIES100@NIES-299@NIES299@NIES-1105@NIES1105@NIES-1091@NIES1091@NIES-111@NIES111@NIES-112@NIES112@NIES-1142@NIES1142@NIES-1055@NIES1055@NIES-1122@NIES1122@NIES-88@NIES88@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-91@NIES91@NIES-101@NIES101@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
1198@Kondo, R., Kagiya, G., Komura, M., Yuki, Y., Hiroishi, S., Watanabe, M.@Molecular taxonomy of a bloom-forming cyanobacterial genus Microcystis.@Bull. Plankton Soc. Japan,@47,@25-33 (in Japanese with English summary).@2000@@cyanobacteria; Microcystis; bacterial criteria; molecular analysis@NIES-1068@NIES1068@NIES-105@NIES105@NIES-1090@NIES1090@NIES-1061@NIES1061@NIES-106@NIES106@NIES-108@NIES108@NIES-109@NIES109@NIES-1076@NIES1076@NIES-1164@NIES1164@NIES-110@NIES110@NIES-100@NIES100@NIES-299@NIES299@NIES-1105@NIES1105@NIES-1091@NIES1091@NIES-111@NIES111@NIES-112@NIES112@NIES-1142@NIES1142@NIES-1055@NIES1055@NIES-1122@NIES1122@NIES-88@NIES88@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-91@NIES91@NIES-101@NIES101@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90@NIES-6@NIES6
1199@Kondo, R., Kagiya, G., Yuki, Y., Hiroishi, S., Watanabe, M.@Taxonomy of a bloom-forming cyanobacterial genus Microcystis.@Nippon Suisan Gakkaishi,@64,@291-292 (in Japanese with English title).@1998@@@NIES-105@NIES105@NIES-106@NIES106@NIES-108@NIES108@NIES-109@NIES109@NIES-110@NIES110@NIES-100@NIES100@NIES-299@NIES299@NIES-111@NIES111@NIES-112@NIES112@NIES-107@NIES107@NIES-88@NIES88@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-91@NIES91@NIES-101@NIES101@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
1200@Kondo, R., Komura, M., Hiroishi, S., Hata, Y.@Detection and 16S rDNA sequence analysis of a bloom-forming cyanobacterial genus Microcystis.@Fish. Sci.,@64,@840-841.@1998@@Microcystis; 16S rDNA; PCR@NIES-107@NIES107@NIES-112@NIES112
1201@Kondo, R., Yoshida, T., Yuki, Y., Hiroishi, S.@DNA-DNA reassociation among a bloom-forming cyanobacterial genus, Microcystis.@Int. J. Syst. Evol. Microbiol.,@50,@767-770.@2000@@DNA hybridization; DNA G+C content; cyanobacteria; Microcystis@NIES-111@NIES111@NIES-112@NIES112@NIES-87@NIES87@NIES-89@NIES89@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-604@NIES604@NIES-104@NIES104
1202@Konno, R. & Wakabayashi, A.@Effects of chemical substance on the growth of algae [Sôrui no zôsyoku ni oyobosu kagakubusshitsu no eikyô].@Tokyo-to Kankyô Kagaku Kenkyûjo Nenpô. 1987,@@4 pp. (in Japanese).@1987@@@NIES-35@NIES35
1203@Kumagai, M., Takamura, Y., Yagi, O., Sudo, R.@Interactions between Microcystis aeruginosa and Moraxella nonliquefaciens.@Jpn. J. Limnol.,@47,@219-228 (in Japanese with English summary).@1986@@blue-green algae; Microcystis; interaction@NIES-604@NIES604
1204@Kusumi, T., Ooi, T., Watanabe, M. M. Takahashi, H., Kakisawa, H.@Cyanoviridin RR, a toxin from the cyanobacterium (blue-green alga) Microcystis viridis.@Tetrahedron Letters,@28,@4695-4698.@1987@@@NIES-102@NIES102
1205@Lee, H. & Ban, S.@Effect of crowding on growth and reproduction of Simocephalus vetulus O.F.Muller.@Hydrobiologia,@391,@135-145.@1999@@flow-through technique; crowding effect; growth and reproduction; neonate size; reproductive investments; Simocephalus vetulus@NIES-282@NIES282
1206@Lee, H.-W., Ban, S., Ando, Y., Ota, T., Ikeda, T.@Deleterious effect of diatom diets on egg production and hatching success in the marine copepod Pseudocalanus newmani.@Plankton Biol. Ecol.,@46,@104-112.@1999@@diatom effect; copepod; Pseudocalanus newmani; clutch size; hatching success@NIES-7@NIES7
1207@Lee, H-W., Ban, S., Ikeda, T., Matsuishi, T.@Effect of temperature on development, growth and reproduction in the marine copepod Pseudocalanus newmani at satiating food condition.@J. Plankton Res.,@25,@261-271.@2003@@@NIES-7@NIES7
1208@Lee, K.-Y., Park, J.-H., Park, B.-S.@CO₂ fixation and SCP production using blue green algae.@Theories and Applications of Chem. Eng. (Korea),@2,@489-492 (in Korean with English title).@1996@@@NIES-46@NIES46@NIES-19@NIES19@NIES-39@NIES39
1209@Lee, T., Tsuzuki, M., Takeuchi, T., Yokoyama, K., Karube, I.@In vivo fluorometric method for early detection of cyanobacterial waterblooms.@J. Appl. Phycol.,@6,@489-495.@1994@@cyanobacteria; waterblooms; in vivo fluorescence; monitoring; Microcystis aeruginosa@NIES-512@NIES512@NIES-298@NIES298
1210@Lee, T., Tsuzuki, M., Takeuchi, T., Yokoyama, K., Karube, I.@Quantitative determination of cyanobacteria in mixed phytoplankton assemblages by an in vivo fluorimetric method.@Anal. Chim. Acta,@302,@81-87.@1995@@cyanobacteria; quantitative estimation; phycocyanin; waterblooms; Microcystis aeruginosa@NIES-512@NIES512@NIES-298@NIES298
1211@Lemieux, C., Otis, C., Turmel, M.@Ancestral chloroplast in Mesostigma viride reveals an early branch of green plant evolution.@Nature,@403,@649-652.@2000@@@NIES-296@NIES296
1212@Li, R., Yokota, A., Sugiyama, J., Watanabe, M., Hiroki, M., Watanabe, M. M.@Chemotaxonomy of planktonic cyanobacteria based on non-polar and 3-hydroxy fatty acid composition.@Phycol. Res.,@46,@21-28.@1998@@3-hydroxy fatty acids; chemotaxonomy; fatty acid; non-polar fatty acids; planktonic cyanobacteria@NIES-821@NIES821@NIES-79@NIES79@NIES-111@NIES111@NIES-112@NIES112@NIES-826@NIES826@NIES-78@NIES78@NIES-204@NIES204@NIES-810@NIES810@NIES-44@NIES44@NIES-207@NIES207@NIES-825@NIES825@NIES-40@NIES40@NIES-81@NIES81@NIES-80@NIES80@NIES-87@NIES87@NIES-89@NIES89@NIES-27@NIES27@NIES-205@NIES205@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-76@NIES76@NIES-604@NIES604@NIES-104@NIES104
1213@Liu, C. B., Lin, L. P., Su, Y. C.@Utilization of Chlorella vulgaris for uptake of nitrogen, phosphorus and heavy metals.@J. Chin. Agr. Chem. Soc.,@34,@331-343 (in Chinese with English summary).@1996@@Chlorella vulgaris; heavy metals; nitrogen; phosphorus@NIES-227@NIES227
1214@Maki, T. & Imai, I.@Effects of harmful dinoflagellate Heterocapsa circularisquama cells on the growth of intracellular bacteria.@Microbes Environ.,@16,@234-239.@2001@@dinoflagellate; red tide; Heterocapsa circularisquama; intracellular bacteria; growth@NIES-1@NIES1
1215@Makino, W. & Ban, S.@Response of life history traits to food conditions in a cyclopoid copepod from an oligotrophic environment.@Limnol. Oceanogr.,@45,@396-407.@2000@@@NIES-282@NIES282
1216@Marin, B. & Melkonian, M.@Flagellar hairs in prasinophytes (Chlorophyta): ultrastructure and distribution on the flagellar surface.@J. Phycol.,@30,@659-678.@1994@@flagellar hairs; Mamiella; Mantoniella; Nephroselmis; Prasinophyceae; Pseudoscourfieldia; Pterosperma; Pyramimonas; Scherffelia; ultrastructure@NIES-485@NIES485@NIES-221@NIES221@NIES-483@NIES483
1217@Matsuda, H., Okino, T., Murakami, M., Yamaguchi, K.@Aeruginosins 102-A and B, new thrombin inhibitors from the cyanobacterium Microcystis viridis (NIES-102).@Tetrahedron,@52,@14501-14506.@1996@@@NIES-102@NIES102
1218@Matsuda, H., Okino, T., Murakami, M., Yamaguchi, K.@Radiosumin, a trypsin inhibitor from the blue-green alga Plectonema radiosum.@J. Org. Chem.,@61,@8648-8650.@1996@@@NIES-515@NIES515
1219@Matsunaga, S., Hori, T., Takahashi, T., Kubota, M., Watanabe, M., Okamoto, K., Masuda, K., Sugai, M.@Discovery of signaling effect of UV-B/C light in the extended UV-A/blue-type action spectra for step-down and step-up photo-phobic responses in the unicellular flagellate alga Euglena gracilis.@Protoplasma,@201,@45-52.@1998@@action spectra; blue light; Euglena; photophobic responses; ultraviolet light@NIES-48@NIES48
1220@Matsunaga, S., Takahashi, T., Watanabe, M., Sugai, M., Hori, T.@Control by ammonium ion of the change from step-up to step-down photophobically responding cells in the flagellate alga Euglena gracilis.@Plant Cell Physiol.,@40,@213-221.@1999@@ammonium ion; blue light; Euglena; greening; photophobic responses@NIES-48@NIES48
1221@Matsunaga, S., Watanabe, S., Sakaushi, S., Miyamura, S., Hori, T.@Screening effect diverts the swimming directions from diaphototactic to positive phototactic in a disk-shaped green flagellate Mesostigma viride.@Photochem. Photobiol.,@77,@324-332.@2003@@@NIES-476@NIES476@NIES-477@NIES477
1222@Mihara, S. & Hase, E.@A short note on the effects of 6-methyl purine on the revolution of the cell cycle of Chlorella pyrenoidosa in synchronous culture.@Plant Cell Physiol.,@17,@403-406.@1976@@@NIES-226@NIES226
1223@Miya, A., Adachi, T., Tazawa, R., Suzuki, S., Kanki, R., Toyobe, M., Oguchi, M.@Gas revitalization by microalgae II. CO₂/O₂ gas exchange system.@CELSS J.,@7,@29-34 (in Japanese with English summary).@1994@@microalgae; CO2/O2 gas exchange system; regenerative life support system@NIES-39@NIES39
1224@Miyagi, N., Satoh, E., Fujii, T.@Effects of n-alkylamines on the motility and viability of Heterosigma akashiwo cells.@Plant Cell Physiol.,@30,@637-642.@1989@@cell viability; Heterosigma akashiwo; n-alkylamine@NIES-6@NIES6
1225@Miyagi, N., Satoh, S., Fujii, T.@A nitrate-inducible plasma membrane protein of a marine alga, Heterosigma akashiwo.@Plant Cell Physiol.,@33,@971-976.@1992@@Heterosigma akashiwo (Raphidophycean); nitrate; plasma membrane; protein@NIES-6@NIES6
1226@Miyoshi, Y. & Tsubo, Y.@Permanent bleaching of Euglena by chloramphenicol.@Plant Cell Physiol.,@10,@221-225.@1969@@@NIES-48@NIES48
1227@Mori, F., Erata, M., Watanabe, M. M.@Cryopreservation of cyanobacteria and green algae in the NIES-Collection.@Microbiol. Cult. Coll.,@18,@45-55.@2002@@cryopreservation; cyanobacteria; green algae; FDA staining method; NIES-Collection@NIES-527@NIES527@NIES-95@NIES95@NIES-97@NIES97@NIES-419@NIES419@NIES-120@NIES120@NIES-375@NIES375@NIES-385@NIES385@NIES-448@NIES448@NIES-128@NIES128@NIES-129@NIES129@NIES-342@NIES342@NIES-130@NIES130@NIES-131@NIES131@NIES-132@NIES132@NIES-133@NIES133@NIES-452@NIES452@NIES-134@NIES134@NIES-135@NIES135@NIES-287@NIES287@NIES-295@NIES295@NIES-657@NIES657@NIES-38@NIES38@NIES-29@NIES29@NIES-156@NIES156@NIES-159@NIES159@NIES-162@NIES162@NIES-163@NIES163@NIES-164@NIES164@NIES-166@NIES166@NIES-167@NIES167@NIES-168@NIES168@NIES-171@NIES171@NIES-177@NIES177@NIES-337@NIES337@NIES-51@NIES51@NIES-56@NIES56@NIES-66@NIES66@NIES-450@NIES450@NIES-451@NIES451@NIES-338@NIES338@NIES-340@NIES340@NIES-186@NIES186@NIES-341@NIES341@NIES-189@NIES189@NIES-192@NIES192@NIES-193@NIES193@NIES-197@NIES197@NIES-202@NIES202@NIES-379@NIES379@NIES-210@NIES210@NIES-212@NIES212@NIES-214@NIES214@NIES-215@NIES215@NIES-32@NIES32@NIES-34@NIES34@NIES-306@NIES306@NIES-313@NIES313@NIES-308@NIES308@NIES-310@NIES310@NIES-390@NIES390@NIES-224@NIES224@NIES-362@NIES362@NIES-242@NIES242@NIES-243@NIES243@NIES-300@NIES300@NIES-349@NIES349@NIES-288@NIES288@NIES-290@NIES290@NIES-230@NIES230@NIES-231@NIES231@NIES-232@NIES232@NIES-359@NIES359@NIES-248@NIES248@NIES-259@NIES259@NIES-312@NIES312@NIES-303@NIES303@NIES-329@NIES329@NIES-361@NIES361@NIES-396@NIES396@NIES-542@NIES542@NIES-506@NIES506@NIES-507@NIES507@NIES-509@NIES509@NIES-505@NIES505@NIES-434@NIES434@NIES-503@NIES503@NIES-481@NIES481@NIES-433@NIES433@NIES-639@NIES639@NIES-659@NIES659@NIES-660@NIES660@NIES-662@NIES662@NIES-532@NIES532@NIES-531@NIES531@NIES-536@NIES536@NIES-540@NIES540@NIES-538@NIES538@NIES-524@NIES524@NIES-523@NIES523@NIES-426@NIES426@NIES-429@NIES429@NIES-430@NIES430@NIES-431@NIES431@NIES-427@NIES427@NIES-573@NIES573@NIES-570@NIES570@NIES-565@NIES565@NIES-575@NIES575@NIES-584@NIES584@NIES-580@NIES580@NIES-581@NIES581@NIES-594@NIES594@NIES-595@NIES595@NIES-579@NIES579@NIES-628@NIES628@NIES-647@NIES647@NIES-648@NIES648@NIES-649@NIES649@NIES-650@NIES650@NIES-638@NIES638@NIES-643@NIES643@NIES-644@NIES644@NIES-655@NIES655@NIES-645@NIES645@NIES-667@NIES667@NIES-663@NIES663@NIES-664@NIES664@NIES-672@NIES672@NIES-687@NIES687@NIES-688@NIES688@NIES-689@NIES689@NIES-694@NIES694@NIES-436@NIES436@NIES-105@NIES105@NIES-641@NIES641@NIES-642@NIES642@NIES-106@NIES106@NIES-108@NIES108@NIES-510@NIES510@NIES-479@NIES479@NIES-640@NIES640@NIES-529@NIES529@NIES-530@NIES530@NIES-109@NIES109@NIES-110@NIES110@NIES-478@NIES478@NIES-100@NIES100@NIES-299@NIES299@NIES-378@NIES378@NIES-456@NIES456@NIES-45@NIES45@NIES-75@NIES75@NIES-77@NIES77@NIES-79@NIES79@NIES-578@NIES578@NIES-111@NIES111@NIES-596@NIES596@NIES-112@NIES112@NIES-74@NIES74@NIES-107@NIES107@NIES-68@NIES68@NIES-653@NIES653@NIES-685@NIES685@NIES-394@NIES394@NIES-137@NIES137@NIES-211@NIES211@NIES-216@NIES216@NIES-244@NIES244@NIES-302@NIES302@NIES-382@NIES382@NIES-78@NIES78@NIES-686@NIES686@NIES-204@NIES204@NIES-380@NIES380@NIES-226@NIES226@NIES-294@NIES294@NIES-309@NIES309@NIES-384@NIES384@NIES-539@NIES539@NIES-658@NIES658@NIES-661@NIES661@NIES-127@NIES127@NIES-139@NIES139@NIES-438@NIES438@NIES-158@NIES158@NIES-263@NIES263@NIES-144@NIES144@NIES-571@NIES571@NIES-217@NIES217@NIES-717@NIES717@NIES-718@NIES718@NIES-719@NIES719@NIES-723@NIES723@NIES-630@NIES630@NIES-635@NIES635@NIES-727@NIES727@NIES-729@NIES729@NIES-440@NIES440@NIES-446@NIES446@NIES-722@NIES722@NIES-351@NIES351@NIES-726@NIES726@NIES-652@NIES652@NIES-209@NIES209@NIES-35@NIES35@NIES-398@NIES398@NIES-546@NIES546@NIES-592@NIES592@NIES-593@NIES593@NIES-305@NIES305@NIES-26@NIES26@NIES-154@NIES154@NIES-537@NIES537@NIES-597@NIES597@NIES-454@NIES454@NIES-58@NIES58@NIES-52@NIES52@NIES-53@NIES53@NIES-54@NIES54@NIES-60@NIES60@NIES-59@NIES59@NIES-44@NIES44@NIES-665@NIES665@NIES-693@NIES693@NIES-207@NIES207@NIES-55@NIES55@NIES-203@NIES203@NIES-474@NIES474@NIES-544@NIES544@NIES-545@NIES545@NIES-666@NIES666@NIES-92@NIES92@NIES-415@NIES415@NIES-514@NIES514@NIES-334@NIES334@NIES-541@NIES541@NIES-691@NIES691@NIES-455@NIES455@NIES-165@NIES165@NIES-40@NIES40@NIES-631@NIES631@NIES-422@NIES422@NIES-423@NIES423@NIES-582@NIES582@NIES-245@NIES245@NIES-458@NIES458@NIES-568@NIES568@NIES-564@NIES564@NIES-566@NIES566@NIES-610@NIES610@NIES-81@NIES81@NIES-153@NIES153@NIES-157@NIES157@NIES-46@NIES46@NIES-80@NIES80@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-152@NIES152@NIES-208@NIES208@NIES-416@NIES416@NIES-453@NIES453@NIES-598@NIES598@NIES-27@NIES27@NIES-205@NIES205@NIES-297@NIES297@NIES-37@NIES37@NIES-25@NIES25@NIES-73@NIES73@NIES-267@NIES267@NIES-22@NIES22@NIES-50@NIES50@NIES-21@NIES21@NIES-19@NIES19@NIES-512@NIES512@NIES-572@NIES572@NIES-574@NIES574@NIES-522@NIES522@NIES-460@NIES460@NIES-464@NIES464@NIES-439@NIES439@NIES-93@NIES93@NIES-155@NIES155@NIES-246@NIES246@NIES-515@NIES515@NIES-160@NIES160@NIES-692@NIES692@NIES-447@NIES447@NIES-36@NIES36@NIES-266@NIES266@NIES-206@NIES206@NIES-569@NIES569@NIES-268@NIES268@NIES-504@NIES504@NIES-119@NIES119@NIES-31@NIES31@NIES-67@NIES67@NIES-23@NIES23@NIES-98@NIES98@NIES-227@NIES227@NIES-360@NIES360@NIES-261@NIES261@NIES-61@NIES61@NIES-170@NIES170@NIES-228@NIES228@NIES-229@NIES229@NIES-720@NIES720@NIES-721@NIES721@NIES-724@NIES724@NIES-289@NIES289@NIES-725@NIES725@NIES-690@NIES690@NIES-656@NIES656@NIES-480@NIES480@NIES-301@NIES301@NIES-583@NIES583@NIES-30@NIES30@NIES-41@NIES41@NIES-102@NIES102@NIES-91@NIES91@NIES-397@NIES397@NIES-65@NIES65@NIES-69@NIES69@NIES-70@NIES70@NIES-449@NIES449@NIES-185@NIES185@NIES-339@NIES339@NIES-187@NIES187@NIES-188@NIES188@NIES-191@NIES191@NIES-194@NIES194@NIES-198@NIES198@NIES-199@NIES199@NIES-200@NIES200@NIES-138@NIES138@NIES-528@NIES528@NIES-437@NIES437@NIES-428@NIES428@NIES-432@NIES432@NIES-180@NIES180@NIES-181@NIES181@NIES-172@NIES172@NIES-183@NIES183@NIES-175@NIES175@NIES-62@NIES62@NIES-63@NIES63@NIES-64@NIES64@NIES-241@NIES241@NIES-457@NIES457@NIES-468@NIES468@NIES-469@NIES469@NIES-646@NIES646@NIES-585@NIES585@NIES-298@NIES298@NIES-76@NIES76@NIES-654@NIES654@NIES-39@NIES39@NIES-96@NIES96@NIES-101@NIES101@NIES-103@NIES103@NIES-122@NIES122@NIES-123@NIES123@NIES-151@NIES151@NIES-147@NIES147@NIES-24@NIES24@NIES-213@NIES213@NIES-257@NIES257@NIES-418@NIES418@NIES-424@NIES424@NIES-425@NIES425@NIES-421@NIES421@NIES-632@NIES632@NIES-633@NIES633@NIES-634@NIES634@NIES-636@NIES636@NIES-637@NIES637@NIES-567@NIES567@NIES-543@NIES543@NIES-94@NIES94@NIES-28@NIES28@NIES-125@NIES125@NIES-173@NIES173@NIES-174@NIES174@NIES-176@NIES176@NIES-178@NIES178@NIES-179@NIES179@NIES-182@NIES182@NIES-651@NIES651@NIES-201@NIES201@NIES-459@NIES459@NIES-577@NIES577@NIES-728@NIES728@NIES-576@NIES576@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90@NIES-33@NIES33
1228@Mori, S., Nakamura, Y., Watanabe, M. M., Yamochi, S., Watanabe, M.@The effect of various environmental factors on the growth yield of red tide algae II.@Olisthodiscus luteus. Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@71-86 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1229@Morimoto, T., Murakami, N., Nagatsu, A., Sakakibara, J.@Studies on glycolipids. VII. Isolation of two new sulfoquinovosyl diacylglycerols from the green alga Chlorella vulgaris.@Chem. Pharm. Bull.,@41,@1545-1548.@1993@@sulfoquinovosyl diacylglycerol (SQDG); glyceroglycolipid; green alga; Chlorella vulgaris; branched fatty acid@NIES-227@NIES227
1230@Morita, E., Abe, T., Tsuzuki, M., Fujiwara, S., Sato, N., Hirata, A., Sonoike, K., Nozaki, H.@Role of pyrenoids in the CO₂-concentrating mechanism: comparative morphology, physiology and molecular phylogenetic analysis of closely related strains of Chlamydomonas and Chloromonas (Volvocales).@Planta,@208,@365-372.@1999@@Chlamydomonas; Chloromonas; CO2-concentrating mechanism; molecular phylogeny; pyrenoid; ribulose-1,5-bisphosphate carboxylase/oxygenase@NIES-447@NIES447
1231@Moriya, M., Nakayama, T., Inouye, I.@Ultrastructure and 18S rDNA sequence analysis of Wobblia lunata gen. et sp. nov., a new heterotrophic flagellate (Stramenopiles, incertae sedis).@Protist,@151,@41-55.@2000@Medium (SUY)@@NIES-1015@NIES1015
1232@Moriya, M., Nakayama, T., Inouye, I.@A new class of the Stramenopiles, Placididea Classis nova: description of Placidia cafeteriopsis gen. et sp. nov.@Protist,@153,@143-156.@2002@Medium (SUY1/10)@@NIES-1014@NIES1014
1233@Munekage, Y., Iwasaki, N., Le, T. X., Hasegawa, H., Natukawa, Y., Kikuhara, S.@Studies on the distribution of antibiotics in water, suspended solid, bottom mud in semi-enclosed sea and its accumulation in plankton.@Proceedings of the 12th International Offshore and Polar Engineering Conference, Kitakyushu, Japan 2002,@@pp. 425-431.@2002@@antibiotics; distribution; mud; sedimentation particles; accumulation; absorption; plankton@NIES-613@NIES613@NIES-17@NIES17
1234@Murakami, M., Ishida, K., Okino, T., Okita, Y., Matsuda, H., Yamaguchi, K.@Aeruginosins 98-A and B, trypsin inhibitors from the blue-green alga Microcystis aeruginosa (NIES-98).@Tetrahedron Letters,@36,@2785-2788.@1995@@@NIES-98@NIES98
1235@Murakami, M., Itou, Y., Ishida, K., Shin, H. J.@Prenylagaramides A and B, new cyclic peptides from two strains of Oscillatoria agardhii.@J. Nat. Prod.,@62,@752-755.@1999@@@NIES-596@NIES596@NIES-205@NIES205
1236@Murakami, M., Kodani, S., Ishida, K., Matsuda, H., Yamaguchi, K.@Micropeptin 103, a chymotrypsin inhibitor from the cyanobacterium Microcystis viridis (NIES-103).@Tetrahedron Letters,@38,@3035-3038.@1997@@@NIES-103@NIES103
1237@Murakami, M., Okita, Y., Matsuda, H., Okino, T., Yamaguchi, K.@Aeruginosin 298-A, a thrombin and trypsin inhibitor from the blue-green alga Microcystis aeruginosa (NIES-298).@Tetrahedron Letters,@35,@3129-3132.@1994@@@NIES-298@NIES298
1238@Murakami, M., Shin, H. J., Matsuda, H., Ishida, K., Yamaguchi, K.@A cyclic peptide, anabaenopeptin B, from the cyanobacterium Oscillatoria agahdhii.@Phytochemistry,@44,@449-452.@1997@@Oscillatoria agardhii; cyanobacterium; cyclic peptide; anabaenopeptin B@NIES-204@NIES204
1239@Murakami, M., Sun, Q., Ishida, K., Matsuda, H., Okino, T., Yamaguchi, K.@Microviridins, elastase inhibitors from the cyanobacterium Nostoc minutum (NIES-26).@Phytochemistry,@45,@1197-1202.@1997@@Nostoc minutum; Cyanophyceae; cyclic peptide; microviridin G; microviridin H; elastase inhibitor; protease inhibitor@NIES-26@NIES26
1240@Murakami, M., Suzuki, S., Itou, Y., Kodani, S., Ishida, K.@New anabaenopeptins, potent carboxypeptidase-A inhibitors from the cyanobacterium Aphanizomenon flos-aquae.@J. Nat. Prod.,@63,@1280-1282.@2000@@@NIES-81@NIES81
1241@Murakami, N., Shirahashi, H., Nagatsu, A., Sakakibara, J.@Two unsaturated 9R-hydroxy fatty acids from the cyanobacterium Anabaena flos-aquae f. flos-aquae.@Lipids,@27,@776-778.@1992@@@NIES-74@NIES74
1242@Murakami, N., Shirahashi, H., Nagatsu, A., Sakakibara, J.@Studies on glycolipids. VI. New acyl-distributed glyceroglycolipids from the nitrogen-fixing cyanobacterium Anabaena flos-aquae f. flos-aquae.@Chem. Pharm. Bull.,@41,@1177-1179.@1993@@glyceroglycolipid; nitrogen-fixing algae; Anabaena flos-aquae f. flos-aquae; cyanobacterium@NIES-74@NIES74
1243@Murakami, N., Shirahashi, H., Sakakibara, J., Tsuchida, Y.@A novel glyceroglycolipid from the nitrogen-fixing cyanobacterium Anabaena flos-aquae f. flos-aquae.@Chem. Pharm. Bull.,@40,@285-287.@1992@@cyanobacterium; Anabaena flos-aquae f. flos-aquae; nitrogen-fixation; glycolipid@NIES-74@NIES74
1244@Murano, F. & Fujita, Y.@Comparative studies of photochemical oxidation-reduction reactions in lamellar fragments of various algae and spinach.@Plant Cell Physiol.,@8,@673-682.@1967@@@NIES-37@NIES37@NIES-21@NIES21@NIES-19@NIES19@NIES-48@NIES48
1245@Nagai, H., Satake, M., Murata, M., Yasumoto, T.@Screening of marine phytoplankton for antifungal substances.@In Toxic Marine Phyto-plankton, Eds. by Graneli, E., Sundstrom, B., Edler, L. & Anderson, D. M., Elsevier Science Pub., New York,@@pp. 385-390.@1990@@@NIES-12@NIES12@NIES-15@NIES15@NIES-1@NIES1@NIES-6@NIES6
1246@Nakagawa, M., Takamura, Y., Yagi, O.@Isolation and characterization of the slime from a cyanobacterium, Microcystis aeruginosa K-3A.@Agric. Biol. Chem.,@51,@329-337.@1987@@@NIES-604@NIES604
1247@Nakahara, M., Ito, H., Yano, H., Harimaya, K.@Eutrophication in three reservoirs as the sources of the waterworks in Kobe City.@Jpn. J. Water Treat. Biol.,@24,@19-24 (in Japanese with English title).@1988@@@NIES-35@NIES35
1248@Nakai, S., Inoue, Y., Hosomi, M., Murakami, A.@Growth inhibition of blue-green algae by allelopathic effects of macrophytes.@Wat. Sci. Tech.,@39,@47-53.@1999@@allelopathy; blue-green algae; coexistence; growth inhibition; macrophyte; Myriophyllum spicatum@NIES-75@NIES75@NIES-512@NIES512@NIES-87@NIES87
1249@Nakai, S., Inoue, Y., Hosomi, M., Murakami, A.@Myriophyllum spicatum-released allelopathic polyphenols inhibiting growth of blue-green algae Microcystis aeruginosa.@Water Res., @34,@3026-3032.@2000@@Myriophyllum spicatum; allelochemical; polyphenol; synergistic growth inhibition; autoxidation; blue-green algae@NIES-87@NIES87
1250@Nakai, S., Yamane, S., Hosomi, M.@Algal growth inhibition effects of Myriophyllum spicatum-releasing four allelopathic polyphenols.@J. Jpn. Soc. Wat. Environ.,@23,@726-730 (in Japanese with English summary).@2000@@allelochemical; polyphenol; algae; concentration-dependent synergistic growth inhibition; autoxidation@NIES-512@NIES512@NIES-35@NIES35@NIES-87@NIES87@NIES-96@NIES96@NIES-71@NIES71
1251@Nakamura, A., Okamoto, T., Komatsu, N., Ooka, S., Oda, T., Ishimatsu, A., Muramatsu, T.@Fish mucus stimulates the generation of superoxide anion by Chattonella marina and Heterosigma akashiwo.@Fish. Sci.,@64,@866-869.@1998@@red tide plankton; Raphidophyceae; fish mucus; reactive oxygen species@NIES-6@NIES6
1252@Nakamura, H.@Results of AGP experiments [AGP, T-P, PO4-P no shiken oyobi bunsekikekka].@Unpublished report in Ebara Yujiraito Co. Ltd,.@@32 pp. (in Japanese).@1993@@@NIES-35@NIES35@NIES-101@NIES101
1253@Nakamura, M., Yamagishi, M., Yoshizaki, F., Sugimura, Y.@The syntheses of plastocyanin and cytochrome c-553 are regulated by copper at the pre-translational level in a green alga, Pediastrum boryanum.@J. Biochem.,@111,@219-224.@1992@@@NIES-301@NIES301
1254@Nakamura, M., Yoshizaki, F., Sugimura, Y.@Accumulation of plastocyanin mRNA lacking 5' region in the green alga Pediastrum boryanum grown under copper-deficient conditions.@Plant Cell Physiol.,@41,@33-41.@2000@@cDNA sequence; copper regulation; green alga; mRNA accumulation; Pediastrum boryanum; plastocyanin@NIES-301@NIES301
1255@Nakamura, Y.@Effects of growth conditions on nitrate, ammonium and phosphate uptake by Chattonella antiqua.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 110,@115-126 (in Japanese with English summary).@1987@@@NIES-1@NIES1
1256@Nakamura, Y., Sawai, K., Mochida, M., Watanabe, M.@An approach to estimate the limiting nutrient of Chattonella antiqua in the Seto Inland Sea - Semicontinuous culture using natural seawater.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 110,@197-212 (in Japanese with English summary).@1987@@@NIES-1@NIES1
1257@Nakamura, Y., Sawai, K., Watanabe, M.@Growth inhibition of a red tide flagellate, Chattonella antiqua by cupric ion.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 110,@127-138 (in Japanese with English summary).@1987@@@NIES-1@NIES1
1258@Nakamura, Y. & Watanabe, M. M.@Growth characteristics of Chattonella antiqua (Raphidophyceae). Part 1. Effects of temperature, salinity, light intensity and pH on growth.@J. Oceanogr. Soc. Japan,@39,@110-114.@1983@@@NIES-1@NIES1
1259@Nakamura, Y. & Watanabe, M. M.@Growth characteristics of Chattonella antiqua Part 2. Effects of nutrients on growth.@J. Oceanogr. Soc. Japan,@39,@151-155.@1983@@@NIES-1@NIES1
1260@Nakamura, Y. & Watanabe, M. M.@Nitrate and phosphate uptake kinetics of Chattonella antiqua grown in light/dark cycles.@J. Oceanogr. Soc. Japan,@39,@167-170.@1983@@@NIES-1@NIES1
1261@Nakamura, Y. & Watanabe, M. M.@Effects of temperature, salinity, light intensity and pH on the growth of Chattonella antiqua.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@79-85 (in Japanese with English summary).@1984@@@NIES-1@NIES1
1262@Nakamura, Y. & Watanabe, M. M.@Effects of nutrients on the growth of Chattonella antiqua.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@87-95 (in Japanese with English summary).@1984@@@NIES-1@NIES1
1263@Nakamura, Y. & Watanabe, M. M.@Diurnal vertical migration of a red tide flagellate, Chattonella antiqua with special reference to the ecological role.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@97-102 (in Japanese with English summary).@1984@@@NIES-1@NIES1
1264@Nakamura, Y. & Watanabe, M. M.@Nitrate and phosphate uptake kinetics of Chattonella antiqua grown in light/dark cycles.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@103-109 (in Japanese with English summary).@1984@@@NIES-1@NIES1
1265@Nakamura, Y., Watanabe, M. M., Watanabe, M.@The effect of various environmental factors on the growth yield of red tide algae. I. Chattonella antiqua.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@53-70 (in Japanese with English summary).@1982@@@NIES-1@NIES1
1266@Nakanishi, K., Karube, I., Hiroshi, S., Uchida, A., Ishida, Y.@Detection of the red tide-causing plankton Chattonella marina using a piezoelectric immunosensor.@Anal. Chim. Acta,@325,@73-80.@1996@@red tide; Chattonella marina; monoclonal antibody; piezoelectric sensors@NIES-121@NIES121
1267@Nakano, T. & Isagi, Y.@Dictyochloropsis irregularis sp. nov. (Chlorococcales, Chloro-phyceae) isolated from the surface of bark.@Phycologia,@26,@222-227.@1987@@@NIES-378@NIES378
1268@Nakayama, T., Ishii, E., Kanazawa, H.@The study on the isolation and culture of the protoplast from heterothallic Closterium.@J. Fac. Sci., Hokkaido Univ., Ser. V (Bot.),@14,@95-114.@1987@@@NIES-65@NIES65@NIES-64@NIES64
1269@Nakayama, T., Watanabe, S., Inouye, I.@Phylogeny of wall-less green flagellates inferred from 18SrDNA sequence data.@Phycol. Res.,@44,@151-161.@1996@@18SrDNA; Chaetopeltidales; Chaetophorales; Chlorophyceae; Dunaliellales, Hafniomonas; molecular phylogeny; Oltmannsiellopsis; Polytomella@NIES-360@NIES360
1270@Nakazawa, A., Krienitz, L., Nozaki, H.@Taxonomy of the unicellular green algal genus Vitreochlamys (Volvocales), based on comparative morphology of cultured material.@Eur. J. Phycol.,@36,@113-128.@2001@@Chlorophyta; comparative morphology; rbcL (large subunit of Rubisco, ribulose-1,5-bisphosphate carboxylase/oxygenase); Sphaerellopsis; taxonomy; ultrastructure; Vitreochlamys; Vitreochlamys pinguis; Volvocales@NIES-875@NIES875@NIES-883@NIES883@NIES-877@NIES877@NIES-880@NIES880@NIES-881@NIES881@NIES-876@NIES876@NIES-878@NIES878@NIES-879@NIES879@NIES-882@NIES882
1271@Nakazawa, A. & Nozaki, H.@Morphology and asexual reproduction of Vitreochlamys aulata (Volvocales, Chlorophyceae).@J. Jpn. Bot.,@75,@42-46.@2000@@asexual reproduction; Chlorophyceae; morphology; Sphaerellopsis; Vitreochlamys aulata@NIES-875@NIES875
1272@Naohara, T. & Ishikawa, H.@Assay of the activity of herbicides using Chlorella.@Zassô-Kenkyû,@20,@82-86 (in Japanese with English summary).@1975@@@NIES-226@NIES226
1273@Neilan, B. A., Hawkins, P. R., Cox, P. T., Goodman, A. E.@Towards a molecular taxonomy for the bloom-forming cyanobacteria.@Aust. J. Mar. Freshwater Res.,@45,@869-873.@1994@@16S rRNA; PCR; Microcystis; Anabaena; DNA sequence@NIES-111@NIES111@NIES-107@NIES107@NIES-78@NIES78@NIES-89@NIES89@NIES-41@NIES41@NIES-102@NIES102
1274@Neilan, B. A., Jacobs, D., Goodman, A. E.@Genetic diversity and phylogeny of toxic cyanobacteria determined by DNA polymorphisms within the phycocyanin locus.@Appl. Environ. Microbiol.,@61,@3875-3883.@1995@@@NIES-111@NIES111@NIES-112@NIES112@NIES-107@NIES107@NIES-78@NIES78@NIES-204@NIES204@NIES-44@NIES44@NIES-207@NIES207@NIES-40@NIES40@NIES-81@NIES81@NIES-80@NIES80@NIES-87@NIES87@NIES-89@NIES89@NIES-73@NIES73@NIES-98@NIES98@NIES-41@NIES41@NIES-102@NIES102@NIES-298@NIES298@NIES-76@NIES76@NIES-24@NIES24
1275@Nichols, P. D., Volkman, J. K., Hallegraeff, G. M., Blackburn, S. I.@Sterols and fatty acids of the red tide flagellates Heterosigma akashiwo and Chattonella antiqua (Raphidophyceae).@Phytochemistry,@26,@2537-2541.@1987@@Heterosigma akashiwo; Chattonella antiqua; algae; Raphidophyceae; lipids; fatty acids; sterols; chemotaxonomy; red tides@NIES-1@NIES1
1276@Niki, T., Kunugi, M., Otsuki, A.@DMSP-lyase activity in five marine phytoplankton species: its potential importance in DMS production.@Mar. Biol.,@136,@759-764.@2000@@@NIES-353@NIES353@NIES-7@NIES7@NIES-6@NIES6
1277@Nishibe, Y., Kawabata, Z., Nakano, S.@Grazing on Microcystis aeruginosa by the heterotrophic flagellate Collodictyon triciliatum in a hypertrophic pond.@Aquat. Microb. Ecol.,@29,@173-179.@2002@@Microcystis aeruginosa; heterotrophic flagellate; digestion; grazing rate@NIES-298@NIES298
1278@Nishida, T., Tsutsumi, Y., Kemi, M., Haneda, T., Okamura, H.@Decolorization of anthraquinone dyes by white-rot fungi and its related enzymes.@J. Jpn. Soc. Wat. Environ.,@22,@465-471 (in Japanese with English summary).@1999@@anthraquinone dye; white-rot fungi; laccase; decolorization; toxicity@NIES-35@NIES35
1279@Nishihara, H., Miwa, H., Watanabe, M., Nagashima, M., Yagi, O., Takamura, Y.@Random amplified polymorphic DNA (RAPD) analyses for discriminating genotypes of Microcystis cyanobacteria.@Biosci. Biotechnol. Biochem.,@61,@1067-1072.@1997@@RAPD analysis; DNA polymorphism; Microcystis; cyanobacterium; allozyme genotype@NIES-1068@NIES1068@NIES-1090@NIES1090@NIES-1061@NIES1061@NIES-1076@NIES1076@NIES-1133@NIES1133@NIES-1164@NIES1164@NIES-1105@NIES1105@NIES-1091@NIES1091@NIES-1067@NIES1067@NIES-1142@NIES1142@NIES-1077@NIES1077@NIES-1122@NIES1122
1280@Noël, M.-H., Kawachi, M., Inouye, I.@Induced dimorphic life cycle of a coccolithophorid, Calyptrosphaera sphaeroidea (Prymnesiophyceae, Haptophyta).@J. Phycol.,@40,@112-129.@2004@Medium (MNK)@@NIES-1213@NIES1213@NIES-997@NIES997@NIES-1212@NIES1212
1281@Noike, T. & Souma, Y.@Survey on the influence factors of eutrophication of lakes and the necessity of advanced waste treatment [Koshô no fu-eiyôka no kanôsei to kôdo shori no hitsuyôsei ni kansuru chôsa].@J. Jpn. Soc. Sewage Works [Gesuidô-Kyôkai Shi],@30,@38-44 (in Japanese).@1993@@@NIES-35@NIES35
1282@Nojiri, T., Fujii, T., Sekimoto, H.@Purification and characterization of a novel sex pheromone that induces the release of another sex pheromone during sexual reproduction of the heterothallic Closterium peracerosum-strigosum-littorale complex.@Plant Cell Physiol.,@36,@79-84.@1995@@Closterium; conjugation (Closterium); protoplast-release-inducing protein; pheromone@NIES-68@NIES68@NIES-67@NIES67
1283@Nozaki, H.@The life history of Japanese Pandorina unicocca (Chlorophyta, Volvocales).@J. Jpn. Bot.,@56,@65-72, pls. 1-2.@1981@@@NIES-667@NIES667@NIES-666@NIES666
1284@Nozaki, H.@Morphology and reproduction of Japanese Volvulina steinii (Chlorophyta, Volvocales).@J. Jpn. Bot.,@57,@105-113, pls. 3-4.@1982@@@NIES-897@NIES897@NIES-546@NIES546@NIES-896@NIES896@NIES-545@NIES545@NIES-898@NIES898
1285@Nozaki, H.@Morphology and taxonomy of two species of Astrephomene (Chlorophyta, Volvocales) in Japan.@J. Jpn. Bot.,@58,@345-352, pls. 11-13.@1983@@@NIES-419@NIES419@NIES-565@NIES565@NIES-564@NIES564@NIES-418@NIES418
1286@Nozaki, H.@Sexual reproduction in Eudorina elegans (Chlorophyta, Volvocales).@Bot. Mag. Tokyo,@96,@103-110.@1983@@anisogamous conjugation; Chlorophyta; Eudorina elegans; gone colony formation; sexual reproduction; Volvocales@NIES-456@NIES456@NIES-457@NIES457
1287@Nozaki, H.@Newly found facets in the asexual and sexual reproduction of Gonium pectorale (Chlorophyta, Volvocales).@Jpn. J. Phycol. (Sôrui),@32,@130-133.@1984@@asexual reproduction; Chlorophyta; flagellar emission; Gonium pectorale; isogamous conjugation; mating papilla; sexual reproduction; Volvocales@NIES-468@NIES468@NIES-469@NIES469
1288@Nozaki, H.@Volvox aureus Ehrenberg var. aureus.@In Photomicrog. Fresh-w. Alg. [Tansui Sôrui Syashinsyû] Vol. 1, Eds. by Yamagishi, T. & Akiyama, M., Uchida Rokakuho, Tokyo,@@pp. 97 (in Japanese & English).@1984@@@NIES-542@NIES542@NIES-541@NIES541
1289@Nozaki, H.@Notes on microalgae in Japan (9). Basichlamys sacculifera (Chlorophyta, Volvocales).@Jpn. J. Phycol. (Sôrui),@34,@143 (in Japanese with English title).@1986@@@NIES-566@NIES566
1290@Nozaki, H.@Notes on microalgae in Japan (10). Eudorina illinoisensis (Chlorophyta, Volvocales).@Jpn. J. Phycol. (Sôrui),@34,@144 (in Japanese with English title).@1986@@@NIES-460@NIES460@NIES-459@NIES459
1291@Nozaki, H.@Sexual reproduction in Gonium sociale (Chlorophyta, Volvocales).@Phycologia,@25,@29-35.@1986@@@NIES-571@NIES571
1292@Nozaki, H.@Zygote germination in Eudorina elegans var. synoica (Chlorophyta, Volvocales).@J. Jpn. Bot.,@61,@316-320, pl. 8.@1986@@@NIES-458@NIES458
1293@Nozaki, H.@Colonial Volvocales (Chlorophyta) from Kathmandu, Nepal.@In Cryptogams of the Himalayas. Vol. 1. The Kathmandu Valley, Eds. by Watanabe, M. & Malla, S. B., Department of Botany, National Science Museum, Tsukuba,@@pp. 39-46.@1988@@@NIES-575@NIES575@NIES-568@NIES568@NIES-574@NIES574
1294@Nozaki, H.@Morphology, sexual reproduction and taxonomy of Volvox carteri f. kawasakiensis f. nov. (Chlorophyta) from Japan.@Phycologia,@27,@209-220.@1988@@@NIES-580@NIES580@NIES-581@NIES581@NIES-733@NIES733@NIES-732@NIES732
1295@Nozaki, H.@Morphological variation and reproduction in Gonium viridistellatum (Volvocales, Chlorophyta).@Phycologia,@28,@77-88.@1989@@@NIES-288@NIES288@NIES-290@NIES290@NIES-655@NIES655@NIES-289@NIES289@NIES-654@NIES654
1296@Nozaki, H.@Colonial Volvocales (Chlorophyta) from Central and East Nepal.@In Cryptogams of the Himalayas. Vol. 2. Central and Eastern Nepal, Eds. by Watanabe, M. & Malla, S. B., Department of Botany, National Science Museum, Tsukuba,@@pp. 41-47.@1990@@@NIES-584@NIES584@NIES-585@NIES585
1297@Nozaki, H.@Ultrastructure of the extra-cellular matrix of Gonium (Volvocales, Chlorophyta).@Phycologia,@29,@1-8.@1990@@@NIES-885@NIES885@NIES-468@NIES468@NIES-651@NIES651
1298@Nozaki, H.@Asexual and sexual reproduction in Gonium quadratum (Chlorophyta) with a discussion of phylogenetic relationships within the Goniaceae.@J. Phycol.,@29,@369-376.@1993@@asexual reproduction; Chlorophyta; Goniaceae; Gonium quadratum; mating papilla; phylogeny; sexual reproduction; zygote germination@NIES-653@NIES653@NIES-652@NIES652@NIES-651@NIES651
1299@Nozaki, H.@Morphology, reproduction and taxonomy of Characiochloris sasae sp. nov. (Chlorophyta) from Japan.@Phycologia,@32,@129-135.@1993@@@NIES-638@NIES638@NIES-637@NIES637@NIES-567@NIES567
1300@Nozaki, H.@Aplanogamous sexual reproduction in Carteria eugametos (Volvocales, Chlorophyta).@Eur. J. Phycol.,@29,@135-139.@1994@@aplanogamy; Carteria eugametos; Chlorophyta; morphology; sexual reproduction; Volvocales@NIES-631@NIES631@NIES-632@NIES632@NIES-633@NIES633
1301@Nozaki, H.@Unequal flagellar formation in Volvox (Volvocaceae, Chlorophyta).@Phycologia,@33,@58-61.@1994@@@NIES-541@NIES541@NIES-732@NIES732
1302@Nozaki, H., Aizawa, K., Watanabe, M. M.@A taxomonic study of four species of Cartera (Volvocales, Chlorophyta) with cruciate anterior papillae, based on cultured material.@Phycologia,@33,@239-247.@1994@@@NIES-630@NIES630@NIES-635@NIES635@NIES-422@NIES422@NIES-423@NIES423@NIES-424@NIES424@NIES-425@NIES425@NIES-421@NIES421@NIES-632@NIES632@NIES-633@NIES633@NIES-634@NIES634@NIES-636@NIES636
1303@Nozaki, H., Aizawa, K., Watanabe, M. M.@Re-examination of two NIES strains labeled Chlorogonium metamorphum (Volvocales, Chlorophyta) from Japan.@Nova Hedwigia Beiheft,@112,@483-490.@1996@@Chlorogonium; Chlorophyta; morphology; neotype strain; species identification; Volvocales@NIES-446@NIES446@NIES-123@NIES123
1304@Nozaki, H., Hara, Y., Kasaki, H.@Light and electron microscopy of pyrenoids and species delimitation in Volvulina (Chlorophyta, Volvocaceae).@J. Phycol.,@23,@359-364.@1987@@Chlorophyta; culture age; pyrenoid; pyrenoid development; taxonomy; ultrastructure; Volvocaceae; Volvulina pringsheimii; Volvulina steinii@NIES-897@NIES897@NIES-896@NIES896@NIES-545@NIES545@NIES-898@NIES898
1305@Nozaki, H. & Ito, M.@Phylogenetic relationships within the colonial Volvocales (Chlorophyta) inferred from cladistic analysis based on morphological data.@J. Phycol.,@30,@353-365.@1994@@Chlorophyta; cladistic analysis; Goniaceae; morphological data; phylogeny; sexual reproduction; Tetrabaena; Tetrabaenaceae fam. nov.; Tetrabaena socialis comb. nov.; Volvocaceae@NIES-565@NIES565@NIES-456@NIES456@NIES-571@NIES571@NIES-541@NIES541@NIES-460@NIES460@NIES-654@NIES654
1306@Nozaki, H., Ito, M., Sano, R., Uchida, H., Watanabe, M. M., Kuroiwa, T.@Phylogenetic relationships within the colonial Volvocales (Chlorophyta) inferred from rbcL gene sequence data.@J. Phycol.,@31,@970-979.@1995@@Chlorophyta; Goniaceae; large subunit of ribulose-1,5-bisphosphate carboxylase / oxygenase (rbcL) gene; molecular phylogeny; Tetrabaenaceae; Volvocaceae@NIES-456@NIES456@NIES-653@NIES653@NIES-571@NIES571@NIES-731@NIES731@NIES-541@NIES541@NIES-564@NIES564@NIES-572@NIES572@NIES-574@NIES574@NIES-566@NIES566@NIES-732@NIES732@NIES-460@NIES460@NIES-569@NIES569@NIES-737@NIES737@NIES-725@NIES725@NIES-735@NIES735@NIES-895@NIES895@NIES-418@NIES418@NIES-421@NIES421@NIES-577@NIES577@NIES-734@NIES734
1307@Nozaki, H., Ito, M., Sano, R., Uchida, H., Watanabe, M. M., Takahashi, H., Kuroiwa, T.@Phylogenetic analysis of Yamagishiella and Platydorina (Volvocaceae, Chlorophyta) based on rbcL gene sequences.@J. Phycol.,@33,@272-278.@1997@@Chlorophyta; Goniaceae; large subunit of ribulose-1,5-bisphosphate carboxylase / oxygenase (rbcL) gene; molecular phylogeny; Platydorina; Volvocaceae; Yamagishiella@NIES-729@NIES729@NIES-722@NIES722@NIES-726@NIES726@NIES-730@NIES730@NIES-736@NIES736@NIES-666@NIES666@NIES-884@NIES884@NIES-582@NIES582@NIES-724@NIES724@NIES-654@NIES654@NIES-728@NIES728
1308@Nozaki, H., Ito, M., Uchida, H., Watanabe, M. M., Kuroiwa, T.@Phylogenetic analysis of Eudorina species (Volvocaceae, Chlorophyta) based on rbcL gene sequences.@J. Phycol.,@33,@859-863.@1997@@Chlorophyta; Eudorina; large subunit of ribulose-1,5-bisphosphate carboxylase / oxygenase (rbcL) gene; molecular phylogeny; species delimitation; taxonomic species; Volvocaceae@NIES-717@NIES717@NIES-718@NIES718@NIES-719@NIES719@NIES-723@NIES723@NIES-458@NIES458@NIES-568@NIES568@NIES-720@NIES720@NIES-721@NIES721
1309@Nozaki, H., Ito, M., Watanabe, M. M., Kuroiwa, T.@Ultrastructure of the vegetative colonies and systematic position of Basichlamys (Volvocales, Chlorophyta).@Eur. J. Phycol.,@31,@67- 72.@1996@@Basichlamys sacculifera; Chlorophyta; cladistic analysis; phylogeny; Tetrabaenaceae; ultrastructure; Volvocales@NIES-566@NIES566
1310@Nozaki, H., Ito, M., Watanabe, M. M., Takano, H., Kuroiwa, T.@Phylogenetic analysis of morphological species of Carteria (Volvocales, Chlorophyta) based on rbcL gene sequences.@J. Phycol.,@33,@864-867.@1997@@Carteria; large subunit of ribulose-1,5-bisphosphate carboxylase / oxygenase (rbcL) gene; microalgae; molecular phylogeny; monophyly; natural systematics; species concepts; species taxonomy; Volvocales@NIES-630@NIES630@NIES-635@NIES635@NIES-631@NIES631@NIES-422@NIES422@NIES-423@NIES423@NIES-428@NIES428@NIES-432@NIES432@NIES-424@NIES424@NIES-425@NIES425@NIES-421@NIES421@NIES-632@NIES632@NIES-633@NIES633@NIES-634@NIES634@NIES-636@NIES636
1311@Nozaki, H. & Kasaki, H.@The sexual process of Japanese Pandorina morum Bory (Chlorophyta).@J. Jpn. Bot.,@54,@363-370, pl. 9.@1979@@@NIES-890@NIES890
1312@Nozaki, H., Katagiri, M., Nakagawa, M., Aizawa, K., Watanabe, M. M.@Taxonomic re-examination of the two strains labeled Chlorella in the Microbial Culture Collection at the National Institute for Environmental Studies (NIES-Collection).@Microbiol. Cult. Coll.,@11,@11-18.@1995@@Chlorella; Graesiella emersonii comb. nov.; green algae; morphology; taxonomy@NIES-687@NIES687@NIES-688@NIES688@NIES-689@NIES689@NIES-686@NIES686@NIES-226@NIES226@NIES-227@NIES227@NIES-690@NIES690
1313@Nozaki, H. & Krienitz, L.@Morphology and phylogeny of Eudorina minodii (Chodat) Nozaki et Krienitz, comb. nov. (Volvocales, Chlorophyta) from Germany.@Eur. J. Phycol.,@36,@23-28.@2001@@Eudorina minodii comb. nov.; molecular phylogeny; morphology; Pandorina minodii; taxonomy; Volvocales@NIES-351@NIES351@NIES-546@NIES546@NIES-717@NIES717@NIES-856@NIES856@NIES-576@NIES576
1314@Nozaki, H., Kuroiwa, H., Kuroiwa, T.@Light and electron microscopic characterization of two types of pyrenoids in Gonium (Goniaceae, Chlorophyta).@J. Phycol.,@30,@279-290.@1994@@Chlorophyta; electron microscopy; Goniaceae; Gonium pectorale; Gonium quadratum; immunogold electron microscopy; pyrenoid; ribulose-1,5-bisphosphate carboxylase / oxygenase (RuBisCO) taxonomy; thylakoid lamellae@NIES-653@NIES653@NIES-468@NIES468
1315@Nozaki, H., Kuroiwa, H., Mita, T., Kuroiwa, T.@Pleodorina japonica sp. nov. (Volvocales, Chlorophyta) with bacteria-like endosymbionts.@Phycologia,@28,@252-267.@1989@Medium (VTAC)@@NIES-577@NIES577
1316@Nozaki, H. & Kuroiwa, T.@Volvulina compacta sp. nov. (Volvocaceae, Chlorophyta) from Nepal.@Phycologia,@29,@410-417.@1990@@@NIES-582@NIES582@NIES-583@NIES583
1317@Nozaki, H. & Kuroiwa, T.@Morphology and sexual reproduction of Gonium multicoccum (Volvocales, Chlorophyta) from Nepal.@Phycologia,@30,@381-393.@1991@@@NIES-885@NIES885@NIES-737@NIES737
1318@Nozaki, H. & Kuroiwa, T.@Pandorina colemaniae sp. nov. (Volvocaceae, Chlorophyta) from Japan.@Phycologia,@30,@449-457.@1991@@@NIES-573@NIES573@NIES-572@NIES572
1319@Nozaki, H. & Kuroiwa, T.@Ultrastructure of the extracellular matrix and taxonomy of Eudorina, Pleodorina and Yamagishiella gen. nov. (Volvocaceae, Chlorophyta).@Phycologia,@31,@529-541.@1992@@@NIES-666@NIES666@NIES-459@NIES459
1320@Nozaki, H., Misawa, K., Kajita, T., Kato, M., Nohara, S., Watanabe, M. M.@Origin and evolution of the colonial Volvocales (Chlorophyceae) as inferred from multiple, chloroplast gene sequences.@Mol. Phylogenet. Evol.,@17,@256-268.@2000@@@NIES-456@NIES456@NIES-653@NIES653@NIES-854@NIES854@NIES-888@NIES888@NIES-571@NIES571@NIES-872@NIES872@NIES-727@NIES727@NIES-722@NIES722@NIES-896@NIES896@NIES-730@NIES730@NIES-731@NIES731@NIES-736@NIES736@NIES-889@NIES889@NIES-474@NIES474@NIES-545@NIES545@NIES-666@NIES666@NIES-541@NIES541@NIES-884@NIES884@NIES-893@NIES893@NIES-582@NIES582@NIES-851@NIES851@NIES-564@NIES564@NIES-572@NIES572@NIES-574@NIES574@NIES-886@NIES886@NIES-890@NIES890@NIES-566@NIES566@NIES-732@NIES732@NIES-460@NIES460@NIES-569@NIES569@NIES-720@NIES720@NIES-721@NIES721@NIES-724@NIES724@NIES-737@NIES737@NIES-725@NIES725@NIES-887@NIES887@NIES-735@NIES735@NIES-882@NIES882@NIES-895@NIES895@NIES-654@NIES654@NIES-898@NIES898@NIES-418@NIES418@NIES-577@NIES577@NIES-728@NIES728@NIES-734@NIES734
1321@Nozaki, H., Misumi, O., Kuroiwa, T.@Phylogeny of the quadriflagellate Volvocales (Chlorophyceae) based on chloroplast multigene sequences.@Mol. Phylogenet. Evol.,@29,@58-66.@2003@@@NIES-656@NIES656@NIES-257@NIES257
1322@Nozaki, H., Ohta, N., Morita, E., Watanabe, M. M.@Toward a natural system of species in Chlorogonium (Volvocales, Chlorophyta): a combined analysis of morphological and rbcL gene sequence data.@J. Phycol.,@34,@1024-1037.@1998@@Chlorogonium; Chlorogonium kasakii sp. nov.; Chlorophyta; molecular phylogeny; monophyletic species; morphology; natural systematics; rbcL gene; species taxonomy; Volvocales@NIES-446@NIES446@NIES-742@NIES742@NIES-743@NIES743@NIES-744@NIES744@NIES-745@NIES745@NIES-746@NIES746@NIES-747@NIES747@NIES-748@NIES748@NIES-749@NIES749@NIES-750@NIES750@NIES-752@NIES752@NIES-753@NIES753@NIES-754@NIES754@NIES-756@NIES756@NIES-757@NIES757@NIES-758@NIES758@NIES-759@NIES759@NIES-760@NIES760@NIES-439@NIES439@NIES-692@NIES692@NIES-751@NIES751@NIES-755@NIES755@NIES-761@NIES761@NIES-123@NIES123
1323@Nozaki, H., Ohta, N., Takano, H., Watanabe, M. M.@Reexamination of phylogenetic relationships within the colonial Volvocales (Chlorophyta): an analysis of atpB and rbcL gene sequences.@J. Phycol.,@35,@104-112.@1999@@atpB gene; Chlorophyta; Gonium; molecular phylogeny; rbcL gene; Volvocaceae; volvocine series; Volvox@NIES-456@NIES456@NIES-861@NIES861@NIES-653@NIES653@NIES-571@NIES571@NIES-727@NIES727@NIES-722@NIES722@NIES-852@NIES852@NIES-858@NIES858@NIES-730@NIES730@NIES-731@NIES731@NIES-736@NIES736@NIES-666@NIES666@NIES-541@NIES541@NIES-884@NIES884@NIES-582@NIES582@NIES-568@NIES568@NIES-564@NIES564@NIES-851@NIES851@NIES-572@NIES572@NIES-574@NIES574@NIES-566@NIES566@NIES-732@NIES732@NIES-460@NIES460@NIES-569@NIES569@NIES-720@NIES720@NIES-721@NIES721@NIES-724@NIES724@NIES-737@NIES737@NIES-725@NIES725@NIES-735@NIES735@NIES-882@NIES882@NIES-895@NIES895@NIES-654@NIES654@NIES-418@NIES418@NIES-577@NIES577@NIES-728@NIES728@NIES-734@NIES734
1324@Nozaki, H. & Ohtani, S.@Gonium sociale (Volvocales, Chlorophyta) from Antarctica.@Jpn. J. Phycol. (Sôrui),@40,@267-271.@1992@@Antarctica; Chlorophyta; culture; Gonium sociale; morphology; Volvocales@NIES-571@NIES571@NIES-691@NIES691
1325@Nozaki, H., Onishi, K., Morita, E.@Differences in pyrenoid morphology are correlated with differences in the rbcL genes of members of the Chloromonas lineage (Volvocales, Chlorophyceae).@J. Mol. Evol.,@55,@414-430.@2002@@ATP synthase β-subunit (atpB) gene; Chloromonas; gene evolution; large subunit of Rubisco (rbcL) gene; morphological evolution; P700 chlorophyll a-apoprotein A2 (psaB) gene; pyrenoid; Volvocales@NIES-456@NIES456@NIES-861@NIES861@NIES-653@NIES653@NIES-875@NIES875@NIES-144@NIES144@NIES-571@NIES571@NIES-446@NIES446@NIES-858@NIES858@NIES-883@NIES883@NIES-474@NIES474@NIES-582@NIES582@NIES-851@NIES851@NIES-574@NIES574@NIES-522@NIES522@NIES-564@NIES564@NIES-566@NIES566@NIES-732@NIES732@NIES-439@NIES439@NIES-447@NIES447@NIES-569@NIES569@NIES-882@NIES882@NIES-428@NIES428@NIES-432@NIES432@NIES-96@NIES96@NIES-123@NIES123@NIES-213@NIES213@NIES-418@NIES418@NIES-425@NIES425@NIES-421@NIES421@NIES-567@NIES567@NIES-968@NIES968
1326@Nozaki, H., Song, L., Liu, Y., Hiroki, M., Watanabe, M. M.@Taxonomic re-examination of a Chinese strain labeled 'Eudorina sp.' (Volvocaceae, Chlorophyta) based on morphological and DNA sequence data.@Phycol. Res.,@46, Suppl.,@63-70.@1998@@5-bisphosphate carboxylase/oxygenase (rbcL) gene; Chlorophyta; Eudorina; large subunit of ribulose-1; molecular phylogeny; morphology; taxonomy; Yamagishiella@NIES-578@NIES578
1327@Nozaki, H., Takahara, M., Nakazawa, A., Kita, Y., Yamada, T., Takano, H., Kawano, S., Kato, M.@Evolution of rbcL group IA introns and intron open reading frames within the colonial Volvocales (Chlorophyceae).@Mol. Phylogenet. Evol.,@23,@326-338.@2002@@@NIES-857@NIES857@NIES-891@NIES891@NIES-875@NIES875@NIES-883@NIES883@NIES-582@NIES582@NIES-892@NIES892@NIES-289@NIES289@NIES-654@NIES654@NIES-418@NIES418
1328@Oda, T., Nakamura, A., Okamoto, T., Ishimatsu, A., Muramatsu, T.@Lectin-induced enhancement of superoxide anion production by red tide phytoplankton.@Mar. Biol.,@131,@383-390.@1998@@@NIES-6@NIES6
1329@Oda, T., Sato, Y., Kim, D., Muramatsu, T., Matsuyama, Y., Honjo, T.@Hemolytic activity of Heterocapsa circularisquama (Dinophyceae) and its possible involvement in shellfish toxicity.@J. Phycol.,@37,@509-516.@2001@@Heterocapsa circularisquama; hemolysis; shellfish toxicity; harmful phytoplankton@NIES-15@NIES15
1330@Ogawa, S. & Hirota, K.@Disintegration of chloroplasts during zygote maturation in Closterium ehrenbergii (Zygnematales, Chlorophyta).@Int. J. Plant Sci.,@161,@609-614.@2000@@chloroplast; Closterium; conjugation; disintegration of chloroplast; Zygnematales; zygote maturation@NIES-228@NIES228@NIES-229@NIES229
1331@Ogawa, S., Iokawa, Y., Oba, T., Watanabe, T.@Application of low-vacuum scanning electron microscope (LV SEM) to the classes for plankton observation.@Bull. Joetsu Univ. Educ.,@19,@99-109 (in Japanese with English summary).@1999@@freeze-drying method; low-vacuum scanning electron microscope (LV SEM); plankton; scanning electron microscope (SEM)@NIES-229@NIES229
1332@Ohmori, M. & Hattori, A.@Heterocyst and nitrogen fixation in Anabaena cylindrica.@In Proceedings of the Seventh International Seaweed Symposium, University of Tokyo Press, Tokyo,@@pp. 598-601.@1971@@@NIES-19@NIES19
1333@Ohmori, M. & Hattori, A.@Nitrogen fixation and heterocysts in the blue-green alga Anabaena cylindrica.@Plant Cell Physiol.,@12,@961-967.@1971@@@NIES-19@NIES19
1334@Ohmori, M. & Hattori, A.@Effect of nitrate on nitrogen-fixation by the blue-green alga Anabaena cylindrica.@Plant Cell Physiol.,@13,@589-599.@1972@@@NIES-19@NIES19
1335@Ohmori, M. & Hattori, A.@Effect of ammonia on nitrogen fixation by the blue-green alga Anabaena cylindrica.@Plant Cell Physiol.,@15,@131-142.@1974@@@NIES-19@NIES19
1336@Oikawa, E., Ishibashi, Y., Abe, T., Umetsu, H.@Phylogenetic classification of musty odor and/or toxic compounds producing cyanobacteria.@Environ. Eng. Res.,@37,@183-191 (in Japanese with English summary).@2000@@cyanobacteria; musty odor; 16S ribosomal RNA; PCR; phylogenetic trees@NIES-512@NIES512@NIES-73@NIES73@NIES-21@NIES21@NIES-30@NIES30@NIES-41@NIES41@NIES-76@NIES76@NIES-33@NIES33
1337@Oikawa, E., Ohnuma, T., Shimizu, A., Ishibashi, Y.@Phylogenetic studies on musty odor producing cyanobacteria using the 16S ribosomal RNA [16S ribosômu RNA enki-hairetsu no hikaku ni yoru kabi-shû sansei ransô-rui no bunrui].@J. Jpn. Water Works Assoc. [Suidô-Kyôkai Zasshi],@63(12),@56-63 (in Japanese).@1994@@musty odor; gene; cyanobacteria@NIES-512@NIES512@NIES-36@NIES36@NIES-76@NIES76
1338@Okamoto, T., Kim, D., Oda, T., Matsuoka, K., Ishimatsu, A., Muramatsu, T.@Concanavalin A-induced discharge of glycocalyx of raphidophycean flagellates, Chattonella marina and Heteroshigma akashiwo.@Biosci. Biotechnol. Biochem.,@64,@1767-1770.@2000@@red tide; concanavalin A; glycocalyx; phytoplankton@NIES-6@NIES6
1339@Okamura, H., Aoyama, I., Liu, D., Maguire, R. J., Pacepavicius, G. J., Lau, Y. L.@Fate and ecotoxicity of the new antifouling compound irgarol 1051 in the aquatic environment.@Water Res.,@34,@3523-3530.@2000@@antifouling compound; degradation product; ecotoxicity; fate; berbicide; Irgarol 1051; M1; Seto Inland Sea Japan; transformation@NIES-35@NIES35
1340@Okamura, K.@Growth characteristics of Skeletonema costatum for algal growth potential.@Kanagawa-ken Kankyô Kagaku Sentâ Kenkyû Hôkoku, @15,@12-15 (in Japanese with English title).@1992@@@NIES-324@NIES324
1341@Okino, T., Matsuda, H., Murakami, M., Yamaguchi, K.@Microginin, an angiotensin-converting enzyme inhibitor from the blue-green alga Microcystis aeruginosa.@Tetrahedron Letters,@34,@501-504.@1993@@@NIES-100@NIES100
1342@Okino, T., Matsuda, H., Murakami, M., Yamaguchi, K.@New microviridins, elastase inhibitors from the blue-green alga Microcystis aeruginosa.@Tetrahedron,@51,@10679-10686.@1995@@@NIES-298@NIES298
1343@Okino, T., Murakami, M., Haraguchi, R., Munekata, H., Matsuda, H., Yamaguchi, K.@Micropeptins A and B, plasmin and trypsin inhibitors from the blue-green alga Microcystis aeruginosa.@Tetrahedron Letters,@34,@8131-8134.@1993@@@NIES-100@NIES100
1344@Okino, T., Sun, Q., Matsuda, H., Murakami, M., Yamaguchi, K.@Nostopeptins A and B, elastase inhibitors from the cyanobacterium Nostoc minutum.@J. Nat. Prod.,@60,@158-161.@1997@@@NIES-26@NIES26
1345@Okuyama, H., Morita, N., Kogame, K.@Occurrence of octadecapentaenoic acid in lipids of a cold stenothermic alga, prymnesiophyte strain B.@J. Phycol.,@28,@465-472.@1992@@Antarctic; cold stenotherm; fatty acid composition; octadecapentaenoic acid; prymnesiophytes; psychrophile@NIES-8@NIES8
1346@Omura, T., Umita, T., Aizawa, J., Komatsu, Y., Ishizaki, M., Onuma, M.@Accumulation of extracellular non-volatile organic acids in batch cultures of Chlorella vulgaris and Microcystis aeruginosa.@Jpn. J. Water Poll. Res.,@14,@615-623 (in Japanese with English summary).@1991@@Chlorella vulgaris; Microcystis aeruginosa; batch culture; non-volatile organic acids; dissolved organic carbon@NIES-87@NIES87@NIES-227@NIES227
1347@Ono, Y., Okamura,H., Kawara, O., Aoyama, I., Oda, Y.@Genotoxicity and ecotoxicity of sediment in road runoff.@J. Jpn. Soc. Wat. Environ.,@22,@561-567 (in Japanese with English summary).@1999@@road runoff; road sediment; genotoxicity; growth inhibition; acute toxicity@NIES-35@NIES35
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1349@Ooi, T., Kusumi, T., Kakisawa, H., Watanabe, M. M.@Structure of cyanoviridin RR, a toxin from the blue-green alga, Microcystis viridis.@J. Appl. Phycol.,@1,@31-38.@1989@@blue-green alga; Microcystis viridis; cyanoviridin RR; microcystin RR, toxins@NIES-102@NIES102
1350@Osafune, T.@Three-dimensional structures of giant mitochondria, dictyosomes and “concentric lamellar bodies” formed during the cell cycle of Euglena gracilis (Z) in synchronous culture.@J. Electron Microscopy,@22,@51-61.@1973@@@NIES-48@NIES48
1351@Osafune, T., Mihara, S., Hase, E., Ohkuro, I.@Formation and division of giant mitochondria during the cell cycle of Euglena gracilis Z in synchronous culture. I. Some characteristics of changes in the morphology of mitochondria and oxygen-uptake activity of cells.@Plant Cell Physiol.,@16,@313-326.@1975@@@NIES-48@NIES48
1352@Osafune, T., Mihara, S., Hase, E., Ohkuro, I.@Formation and division of giant mitochondria during the cell cycle of Euglena gracilis Z in synchronous culture. II. Modes of division of giant mitochondria.@J. Electron Microscopy,@24,@33-39.@1975@@@NIES-48@NIES48
1353@Osafune, T., Mihara, S., Hase, E., Ohkuro, I.@Formation and division of giant mitochondria during the cell cycle of Euglena gracilis Z in synchronous culture. III. Three-dimensional structures of mitochondria after division of giant forms.@J. Electron Microscopy,@24,@283-286.@1975@@@NIES-48@NIES48
1354@Otsuka, S., Suda, S., Li, R., Matsumoto, S., Watanabe, M. M.@Morphological variability of colonies of Microcystis morphospecies in culture.@J. Gen. Appl. Microbiol.,@46,@39-50.@2000@@colony; cyanobacteria; Microcystis; morphology; phycoerythrin; pigment@NIES-843@NIES843@NIES-901@NIES901
1355@Otsuka, S., Suda, S., Li, R., Watanabe, M., Oyaizu, H., Matsumoto, S., Watanabe, M. M.@16S rDNA sequences and phylogenetic analyses of Microcystis strains with and without phycoerythrin.@FEMS Mircobiol. Lett.,@164,@119-124.@1998@@cyanobacterium; Microcystis; 16S rDNA; taxonomy@NIES-1054@NIES1054@NIES-1055@NIES1055@NIES-1067@NIES1067@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1090@NIES1090@NIES-1143@NIES1143
1356@Otsuka, S., Suda, S., Li, R., Watanabe, M., Oyaizu, H., Matsumoto, S., Watanabe, M. M.@Phylogenetic relationships between toxic and non-toxic strains of the genus Microcystis based on 16S to 23S internal transcribed spacer sequence.@FEMS Mircobiol. Lett.,@172,@15-21.@1999@@cyanobacteria; Microcystis; internal transcribed spacer; phylogeny; microcystin@NIES-1068@NIES1068@NIES-1092@NIES1092@NIES-1090@NIES1090@NIES-1115@NIES1115@NIES-1117@NIES1117@NIES-1143@NIES1143@NIES-1105@NIES1105@NIES-1058@NIES1058@NIES-1091@NIES1091@NIES-111@NIES111@NIES-1067@NIES1067@NIES-1055@NIES1055@NIES-1086@NIES1086@NIES-44@NIES44@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1054@NIES1054@NIES-104@NIES104
1357@Otsuka, S., Suda, S., Shibata, S., Oyaizu, H., Matsumoto, S., Watanabe, M. M.@A proposal for the unification of five species of the cyanobacterial genus Microcystis Kützing ex Lemmermann 1907 under the rules of the Bacteriological Code.@Int. J. Syst. Evol. Microbiol.,@51,@873-879.@2001@@cyanobacteria; DNA-DNA hybridization; Microcystis; taxonomy; unification@NIES-843@NIES843
1358@Otsuki, A., Watanabe, M. M., Sugahara, K.@Chlorophyll pigments in methanol extracts from ten axenic cultured diatoms and three green algae as determined by reverse phase HPLC with fluorometric detection.@J. Phycol.,@23,@406-414.@1987@@chlorophyll c complex; chlorophyll pigments; diatoms; field desorption mass spectrometry; methanol extracts; reverse phase HPLC@NIES-56@NIES56@NIES-534@NIES534@NIES-225@NIES225@NIES-157@NIES157@NIES-16@NIES16@NIES-71@NIES71
1359@Park, H-D. & Hayashi, H.@Microcystis and microcystins [Microcystis zoku to mikuroshisuchin].@In Waterbloom of Blue-green Algae and Their Toxins [Aoko, sono shutsugen to dokuso], Eds. by Watanabe, M. F., Harada,K. & Fujii, H., University of Tokyo Press,@@pp. 75-99 (in Japanese).@1994@@@NIES-1053@NIES1053@NIES-1059@NIES1059@NIES-1061@NIES1061@NIES-1066@NIES1066@NIES-1068@NIES1068@NIES-1074@NIES1074@NIES-1076@NIES1076@NIES-1079@NIES1079@NIES-1080@NIES1080@NIES-1081@NIES1081@NIES-1083@NIES1083@NIES-1084@NIES1084@NIES-1090@NIES1090@NIES-1093@NIES1093@NIES-1098@NIES1098@NIES-1140@NIES1140@NIES-1154@NIES1154@NIES-3349@NIES3349@NIES-1091@NIES1091@NIES-1070@NIES1070@NIES-74@NIES74@NIES-1097@NIES1097@NIES-1067@NIES1067@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1055@NIES1055@NIES-1086@NIES1086@NIES-73@NIES73@NIES-1071@NIES1071@NIES-1099@NIES1099@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1054@NIES1054
1360@Park, H-D. & Watanabe, M. F.@Toxic Microcystis in eutrophic lakes.@In Toxic Microcystis, Eds. by Watanabe, M.F., Harada, K., Carmichael W.W. & Fujii, H., CRC Press, Boca Raton,@@pp. 57-77.@1996@@@NIES-1074@NIES1074@NIES-1079@NIES1079@NIES-1090@NIES1090@NIES-1154@NIES1154@NIES-3349@NIES3349@NIES-74@NIES74@NIES-1063@NIES1063@NIES-1086@NIES1086@NIES-73@NIES73@NIES-1085@NIES1085
1361@Park, H-D., Watanabe, M. F., Harada, K., Nagai, H., Suzuki, M., Watanabe, M., Hayashi, H.@Hepatotoxin (microcystin) and neurotoxin (anatoxin-a) contained in natural blooms and strains of cyanobacteria from Japanese freshwaters.@Natural Toxins,@1,@353-360.@1993@@Anabaena; anatoxin-a; neurotoxin; Microcystis; microcystin; hepatotoxin; natural bloom; strain; Japanese freshwaters; simultaneous analysis of anatoxin-a and microcystin@NIES-1074@NIES1074@NIES-1079@NIES1079@NIES-1090@NIES1090@NIES-3349@NIES3349@NIES-74@NIES74@NIES-1063@NIES1063@NIES-1086@NIES1086@NIES-73@NIES73@NIES-1085@NIES1085
1362@Pedersén, M. & DaSilva, E. J.@Simple brominated phenols in the bluegreen alga Calothrix brevissima West.@Planta,@115,@83-86.@1973@@@NIES-22@NIES22
1363@Pjon, C.-J. & Fujita, Y.@Immunological identification of pigment component of a photochemically active chromoprotein (ACP) isolated from the blue-green alga Anabaena cylindrica.@Plant Cell Physiol.,@14,@201-205.@1973@@@NIES-19@NIES19
1364@Pjon, C.-J. & Fujita, Y.@The separation and characterization of the photoreactive component of a photochemically active chromoprotein (ACP) obtained from the blue-green alga Anabaena cylindrica.@Plant Cell Physiol.,@15,@789-797.@1974@@@NIES-19@NIES19
1365@Pjon, C.-J., Suzuki, R., Fujita, Y.@Photochemical activity fluorescence and absorption spectrum of the photochemically active chromoprotein (ACP) isolated from the blue-green alga Anabaena cylindrica.@Plant Cell Physiol.,@13,@437-447.@1972@@@NIES-19@NIES19
1366@Robertson, B. R., Tezuka, N., Watanabe, M. M.@Phylogenetic analyses of Synechococcus strains (cyanobacteria) using sequences of 16S rDNA and part of the phycocyanin operon reveal multiple evolutionary lines and reflect phycobilin content.@Int. J. Syst. Evol. Microbiol.,@51,@861-871.@2001@@cyanobacteria; phycocyanin; phylogeny; 16S rDNA; Synechococcus@NIES-944@NIES944@NIES-948@NIES948@NIES-937@NIES937@NIES-940@NIES940@NIES-941@NIES941@NIES-938@NIES938@NIES-939@NIES939@NIES-942@NIES942@NIES-946@NIES946@NIES-949@NIES949@NIES-961@NIES961@NIES-943@NIES943@NIES-945@NIES945@NIES-953@NIES953@NIES-954@NIES954@NIES-957@NIES957@NIES-958@NIES958@NIES-959@NIES959@NIES-947@NIES947@NIES-960@NIES960@NIES-951@NIES951@NIES-962@NIES962@NIES-955@NIES955@NIES-956@NIES956@NIES-952@NIES952@NIES-963@NIES963@NIES-964@NIES964@NIES-965@NIES965@NIES-950@NIES950
1367@Sakamori, S., Uraya, K., Annen, K.@Eutrophication of the sea area (III).@Bull. Toyama Pref. Environ. Sci. Res. Center,@29,@34-42 (in Japanese with English summary).@2001@@@NIES-561@NIES561
1368@Sakamori, S., Yoshikawa, H., Annen, K.@The research on the eutrophication of the sea area (II).@Bull. Toyama Pref. Environ. Sci. Res. Center,@28,@31-41 (in Japanese with English summary).@2000@@@NIES-561@NIES561
1369@Sakamoto, S., Yamaguchi, M., Watanabe, M. F., Watanabe, M., Kamiya, H.@Distribution and characterization of lectins from natural and cultured Microcystis spp.@In Harmful and Toxic Algal Blooms, Eds. by Yasumoto, T., Oshima, Y. & Fukuyo, Y., Intergovernmental Oceanographic Commission of UNESCO 1996,@@pp. 569-572.@1996@@@NIES-1057@NIES1057@NIES-1066@NIES1066@NIES-1080@NIES1080@NIES-1061@NIES1061@NIES-106@NIES106@NIES-100@NIES100@NIES-102@NIES102@NIES-298@NIES298
1370@Sakio, Y., Ishibashi, M., Okuyama, E.@Chemical constituents of a diatom Triceratium dubium.@Nat. Med.,@54,@104.@2000@@Triceratium dubium; diatom; microalgae; epiloliolide; phaeophorbide@NIES-556@NIES556
1371@Sako, Y., Adachi, M., Ishida, Y.@Specific monoclonal antibodies and DNA probes for the identification of the toxic dinoflagellate genus Alexandrium.@In Harmful Marine Algal Blooms, Eds. by Lassus, P., et al., Lavoisier, Intercept Ltd.,@@pp. 77-82.@1995@@@NIES-5@NIES5@NIES-118@NIES118
1372@Sano, T. & Kaya, K.@Oscillamide Y, a chymotrypsin inhibitor from toxic Oscillatoria agardhii.@Tetrahedron Letters,@36,@5933-5936.@1995a@@@NIES-610@NIES610
1373@Sano, T. & Kaya, K.@A 2-amino-2-butenoic acid (Dhb)-containing microcystin isolated from Oscillatoria agardhii.@Tetrahedron Letters,@36,@8603-8606.@1995b@@@NIES-610@NIES610
1374@Sano, T. & Kaya, K.@Oscillapeptin G, a tyrosinase inhibitor from toxic Oscillatoria agardhii.@J. Nat. Prod.,@59,@90-92.@1996@@@NIES-610@NIES610
1375@Sano, T., Usui, T., Ueda, K., Osada, H., Kaya, K.@Isolation of new protein phosphatase inhibitors from two cyanobacteria species, Planktothrix spp.@J. Nat. Prod.,@64,@1052-1055.@2001@@@NIES-905@NIES905@NIES-928@NIES928
1376@Sartoni, G. & Sonni, C.@Tribonema marinum J. Feldmann and Acinetospora crinita (Carmichael) Sauvageau in the benthic mucilaginous aggregates observed along Tuscan shores during the summer of 1991.@Informatore Botanico Italiano,@23,@23-30 (in Italian with English summary).@1991@@@NIES-548@NIES548
1377@Sasa, T., Suda, S., Watanabe, M. M., Takaichi, S.@A yellow marine Chlamydomonas: morphology and pigment composition.@Plant Cell Physiol.,@33,@527-534.@1992@@carotenoid; Chlamydomonas; Chlamydomonas parkeae; Chlorophyta; ultrastructure; 2,4-divinylprotochlorophyllide (DVP); flagellar apparatus; siphonaxanthin; siphonaxanthin decenoate; siphonaxanthin dodecenoate; siphonaxanthin octenoate@NIES-440@NIES440
1378@Sasa, T., Takaichi, S. Hatakeyama, N., Watanabe, M. M.@A novel carotenoid ester, loroxanthin dodecenoate, from Pyramimonas parkeae (Prasinophyceae) and a chlorarachniophycean alga.@Plant Cell Physiol.,@33,@921-925.@1992@@(3R,3'R,6'R)-β,ε-carotene-3,19,3'-triol 19-(2-dodecanoate); chlorarachniophyte; 1H-NMR; loroxanthin dodecenoate; Pyramimonas parkeae@NIES-254@NIES254
1379@Sato, R., Fujishima, H., Itabashi, Y.@Analysis of algal phosphatidylglycerols by chiral phase high-performane liquid chromatography.@Bull. Fish. Sci. Hokkaido Univ.,@54,@7-12 (in Japanese with English summary).@2003@@phosphatidylglycerol; diastereomer; Enteromorpha sp.; Chlorella vulgaris; Heterosigma akashiwo; spinach; parsley; green tea; chiral phase HPLC; 3,5-dinitrophenylurethane@NIES-227@NIES227
1380@Sato, Y., Murakami, M., Miyazawa, K., Hori, K.@Purification and characterization of a novel lectin from a freshwater cyanobacterium, Oscillatoria agardhii.@Comp. Biochem. Physiol.,@Part B 125,@169-177.@2000@@agglutinins; blue-green algae; cyanobacteria; carbohydrate-binding specificity; isolation; lectin; eucheuma; Myxococcus xanthus; Oscillatoria agardhii; N-terminal sequence@NIES-204@NIES204
1381@Satoh, E., Satoh, S., Fujii, T.@Synchronization of phosphorylation of a chloroplast protein with the cell division cycle in Heterosigma akashiwo.@Plant Cell Physiol.,@33,@275-280.@1992@@cell cycle; chloroplast stromal protein; Heterosigma akashiwo; protein phosphorylation@NIES-6@NIES6
1382@Sawada, K., Handa, N., Shiraiwa, Y., Danbara, A., Montani, S.@Long-chain alkenones and alkyl alkenoates in the coastal and pelagic sediments of the northwest North Pacific, with special reference to reconstruction of Emiliania huxleyi and Gephyrocapsa oceanica ratios.@Org. Geochem.,@24,@751-764.@1996@@alkenone, alkyl alkenoate; Uk'37; EE/K37; EE/K38; Emiliania huxleyi; Gephyrocapsa oceanica; coccolithophorid assemblage; northwest North Pacific sediment@NIES-838@NIES838@NIES-837@NIES837
1383@Scheibe, J.@Photoreversible pigment: occurrence in a blue-green alga.@Science,@176,@1037-1039.@1972@@@NIES-37@NIES37
1384@Sekiguchi, M., Ohtsuki, A., Shibata, Y., Morita, M.@Arsenic compounds accumulated in phytoplanktons of marine origin.@J. Environ. Chem. [Kankyô-Kagaku],@5,@366-367 (in Japanese with English title).@1995@@@NIES-440@NIES440@NIES-208@NIES208@NIES-16@NIES16
1385@Sekimoto, H. & Fujii, T.@Sexual reproduction of microalgae : its physiological and biochemical study.@Cell Science,@7,@562-571 (in Japanese with English title).@1991@@@NIES-68@NIES68@NIES-67@NIES67
1386@Sekimoto, H. & Fujii, T.@Analysis of gametic protoplast release in the Closterium peracerosum-strigosum-littorale complex (Chlorophyta).@J. Phycol.,@28,@615-619.@1992@@biologically active glycoprotein; Closterium peracerosum-strigosum-littorale complex; conjugation; gametic protoplast release@NIES-68@NIES68@NIES-67@NIES67
1387@Sekimoto, H. & Fujii, T.@Cell-cell interaction involved in the sexual reproduction of Closterium [Mikadukimo no yûsei seisyoku ni kakawaru saibôkan jôhô kôkan].@Iden,@47 (1),@43-48 (in Japanese).@1993@@@NIES-68@NIES68@NIES-67@NIES67@NIES-65@NIES65@NIES-64@NIES64
1388@Sekimoto, H., Satoh, S., Fujii, T.@Biochemical and physiological properties of a protein inducing protoplast release during conjugation in the Closterium peracerosum-strigosum-littorale complex.@Planta,@182,@348-354.@1990@@Clostreium; conjugation (Closterium); glycoprotein; protoplast release in conjugation@NIES-68@NIES68@NIES-67@NIES67
1389@Sekimoto, H., Satoh, S., Fujii, T.@Biochemical and physiological properties of a gametic protoplast-release-inducing protein in Closterium.@Korean J. Phycol.,@7,@121-129.@1992@@Clostreium; conjugation; glycoprotein; protoplast release in conjugation@NIES-68@NIES68@NIES-67@NIES67
1390@Sekimoto, H., Satoh, S., Fujii, T.@Analysis of binding of biotinylated protoplast-release-inducing protein that induces release of gametic protoplasts in the Closterium peracerosum-strigosum-littorale complex.@Planta,@189,@468-474.@1993@@Clostreium; conjugation (Closterium); protoplast-release; inducing protein; pheromone; receptor@NIES-68@NIES68@NIES-67@NIES67
1391@Sekimoto, H., Sone, Y., Fujii, T.@cDNA cloning of a 42-kilodalton subunit of protoplast-release-inducing protein from Closterium.@Plant Physiol.,@104,@1095-1096.@1994@@@NIES-67@NIES67
1392@Sekimoto, H., Sone, Y., Fujii, T.@A cDNA encoding a 19-kilodalton subunit of protoplast-release-inducing protein from Closterium.@Plant Physiol.,@105,@447.@1994@@@NIES-67@NIES67
1393@Sekimoto, H., Sone, Y., Fujii, T.@Regulation of expression of the genes for a sex pheromone by an inducer of the sex pheromone in the Closterium peracerosum-strigosum-littorale complex.@Planta,@193,@137-144.@1994@@Clostreium complex; inducer (of protoplast-release-inducing protein); pheromone; protoplast-release-inducing protein (PR-IP); sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1394@Sekimoto, H., Sone, Y., Fujii, T.@Biochemical, physiological, and molecular analysis of sexual isolation in the species complex Closterium peracerosum-strigosum-littorale (Chlorophyta).@J. Phycol.,@31,@611-615.@1995@@Chlorophyta; Closterium peracerosum-strigosum-littorale complex; conjugation; pheromone; plotoplast-release-inducing protein (PR-IP); sexual isolation@NIES-68@NIES68@NIES-67@NIES67@NIES-65@NIES65@NIES-64@NIES64
1395@Sekino, K., Kobayashi, H., Shiraiwa, Y.@Role of coccoliths in the utilization of inorganic carbon by a marine unicellular coccolithophorid, Emiliania huxleyi: a survey using intact cells and protoplasts.@Plant Cell Physiol.,@37,@123-127.@1996@@calcification; coccolith; coccolithophorid; Emiliania huxleyi; inorganic carbon utilization; protoplast@NIES-837@NIES837
1396@Sekino, K. & Shiraiwa, Y.@Accumulation and utilization of dissolved inorganic carbon by a marine unicellular coccolithophorid, Emiliania huxleyi.@Plant Cell Physiol.,@35,@353-361.@1994@@bicarbonate uptake; calcification; CO2 uptake; coccolithophorid; Emiliania huxleyi; inorganic carbon accumulation@NIES-837@NIES837
1397@Sekino, K. & Shiraiwa, Y.@CO₂ release from the culture of calcifying and noncalcifying marine unicellular algae.@J. Mar. Biotechnol.,@3,@101-104.@1995@@@NIES-837@NIES837
1398@Sekino, K. & Shiraiwa, Y.@Evidence for the involvement of mitochondrial respiration in calcification in a marine coccolithophorid, Emiliania huxleyi.@Plant Cell Physiol.,@37,@1030-1033.@1996@@calcification; CO2 fixation; coccolithophorids; Emiliania huxleyi; mitochondrial respiration; photosynthesis@NIES-837@NIES837
1399@Seo, P-S. & Yokota, A.@The phylogenetic relationships of cyanobacteria inferred from 16S rRNA, gyrB, rpoC1 and rpoD1 gene sequences.@J. Gen. Appl. Micobiol.,@49,@191-203.@2003@@cyanobacteria; gyrB; phylogeny; protein evolution; rpoC1; rpoD1; 16S rDNA@NIES-2093@NIES2093@NIES-25@NIES25@NIES-22@NIES22@NIES-21@NIES21@NIES-19@NIES19@NIES-3277@NIES3277@NIES-2128@NIES2128@NIES-2095@NIES2095@NIES-104@NIES104@NIES-39@NIES39
1400@Shatari, Y. & Ogawa, S.@Observation of cell division in Closterium (Zygnematales, Chlorophyta) and its application to the teaching materials in high school biology.@Jpn. J. Biol. Educ.,@41,@90-99 (in Japanese with English summary).@2001@@asexual reproduction; cell division; Closterium; teaching material@NIES-52@NIES52@NIES-182@NIES182
1401@Shibata, M., Kashino, Y., Satoh, K., Koike, H.@Isolation and characterization of oxygen-evolving thylakoid membranes and photosystem II particles from a glaucocystophyte, Cyanophora paradoxa.@Plant Cell Physiol.,@42,@733-741.@2001@@Cyanophora paradoxa; glaucocystophyte; oxygen evolution; photosystem II; PsbO; thylakoid membranes@NIES-547@NIES547
1402@Shibukawa, K., Takamura, Y., Takao, E., Irie, M., Yagi, O.@Studies on the growth factors of an axenic clone of the cyanobacterium Microcystis aeruginosa K-3A.@Jpn. J. Limnol.,@47,@247-255 (in Japanese with English summary).@1986@@cyanobacteria; Microcystis; vitamin B12; growth factor@NIES-604@NIES604
1403@Shin, H. J., Matsuda, H., Murakami, M., Yamaguchi, K.@Agardhipeptins A and B, two new cyclic hepta- and octapeptide, from the cyanobacterium Oscillatoria agardhii (NIES-204).@Tetrahedron,@52,@13129-13136.@1996@@@NIES-204@NIES204
1404@Shin, H. J., Matsuda, H., Murakami, M., Yamaguchi, K.@Aeruginosins 205A and -B, serine protease inhibitory glycopeptides from the cyanobacterium Oscillatoria agardhii (NIES-205).@J. Org. Chem.,@62,@1810-1813.@1997@@@NIES-205@NIES205
1405@Shin, H. J., Matsuda, H., Murakami, M., Yamaguchi, K.@Anabaenopeptins E and F, two new cyclic peptides from the cyanobacterium Oscillatoria agardhii (NIES-204).@J. Nat. Prod.,@60,@139-141.@1997@@@NIES-204@NIES204
1406@Shin, H. J., Matsuda, H., Murakami, M., Yamaguchi, K.@Circinamide, a novel papain inhibitor from the cyanobacterium Anabaena circinalis (NIES-41).@Tetrahedron,@53,@5747-5754.@1997@@@NIES-41@NIES41
1407@Shin, H. J., Murakami, M., Matsuda, H., Ishida, K., Yamaguchi, K.@Oscillapeptin, an elastase and chymotrypsin inhibitor from the cyanobacterium Oscillatoria agardhii (NIES-204).@Tetrahedron Letters,@36,@5235-5238.@1995@@@NIES-204@NIES204
1408@Shin, H. J., Murakami, M., Matsuda, H., Yamaguchi, K.@Microviridins D-F, serine protease inhibitors from the cyanobacterium Oscillatoria agardhii (NIES-204).@Tetrahedron,@52,@8159-8168.@1996@@@NIES-204@NIES204
1409@Shinobu, K., Abe, S., Asano, K., Abe, T.@On the laboratory experiment of algal culturing (AGP-test) [Sôrui baiyô no shitsunai jikken (AGP shiken) ni tsuite].@Heisei 4-nendo Tôhoku Chihô Kensetsu-kyoku Kan-nai Gijutsu Kenkyû Happyôkai Shiryô,@Kyô-28,@151-154 (in Japanese).@1992@@@NIES-30@NIES30
1410@Shono, M., Hara, Y., Wada, M., Fujii, T.@A sodium pump in the plasma membrane of the marine alga Heterosigma akashiwo.@Plant Cell Physiol.,@37,@385-388.@1996@@Heterosigma akashiwo; marine alga; Na+ transport; Na+-APTase [EC 3.6.1.3]; plasma membrane@NIES-6@NIES6
1411@Shono, M., Wada, M., Fujii, T.@Partial purification of a Na⁺-ATPase from the plasma membrane of the marine alga Heterosigma akashiwo.@Plant Physiol.,@108,@1615-1621.@1995@@@NIES-6@NIES6
1412@Soma, Y., Imaizumi, T., Yagi, K., Kasuga, S.@Estimation of algal succession in lake water using HPLC analysis of pigments.@Can. J. Fish. Aquat. Sci.,@50,@1142-1146.@1993@@@NIES-234@NIES234@NIES-111@NIES111@NIES-233@NIES233@NIES-351@NIES351@NIES-44@NIES44@NIES-333@NIES333@NIES-88@NIES88@NIES-81@NIES81@NIES-73@NIES73@NIES-104@NIES104
1413@Suda, S.@Light microscopy and electron microscopy of Nephroselmis spinosa sp. nov. (Prasinophyceae, Chlorophyta).@J. Phycol.,@39,@590-599.@2003@@morphology; Nephroselmis spinosa; Prasinophyceae; scale morphology; taxonomy; ultrastructure@NIES-934@NIES934@NIES-935@NIES935
1414@Suda, S. & Watanabe, M. M.@Life cycle of Pseudocarteria mucosa (Korschikov) Ettl (Volvocales, Chlorophyta).@Phycologia,@34,@58-64.@1995@@@NIES-523@NIES523
1415@Suda, S. & Watanabe, M. M.@Notes on microalgae in Japan (2). Hafniomonas montana (Geitler) Ettl et Moestrup (Chlorophyceae, Dunaliellales).@Jpn. J. Phycol. (Sôrui),@43,@40-41 (in Japanese with English title).@1995@@@NIES-257@NIES257
1416@Suda, S., Watanabe, M. M., Inouye, I.@Evidence for sexual reproduction in the primitive green alga Nephroselmis olivacea (Prasinophyceae).@J. Phycol.,@25,@596-600.@1989@@@NIES-485@NIES485@NIES-483@NIES483
1417@Suda, S., Watanabe, M. M., Inouye, I.@Morphological observations on the rare quadriflagellate Pseudocarteria mucosa (Chlorophyceae, Volvocales).@Phycologia,@29,@54-64.@1990@@@NIES-524@NIES524@NIES-523@NIES523@NIES-522@NIES522
1418@Suda, S., Watanabe, M. M., Otsuka, S., Mahakahant, A., Yongmanitchai, W., Nopartnaraporn, N., Liu, Y., Day, J. G.@Taxonomic revision of water-bloom-forming species of oscillatorioid cyanobacteria.@Int. J. Syst. Evol. Microbiol.,@52,@1577-1595.@2002@@cyanobacteria; water bloom; oscillatorioid; nomenclature; taxonomy@NIES-594@NIES594@NIES-595@NIES595@NIES-844@NIES844@NIES-845@NIES845@NIES-911@NIES911@NIES-912@NIES912@NIES-913@NIES913@NIES-915@NIES915@NIES-916@NIES916@NIES-918@NIES918@NIES-905@NIES905@NIES-596@NIES596@NIES-847@NIES847@NIES-846@NIES846@NIES-204@NIES204@NIES-917@NIES917@NIES-207@NIES207@NIES-610@NIES610@NIES-205@NIES205
1419@Sudo, R., Tai, S., Yagi, O., Okada, M., Hosomi, M., Yamane, A. N.@Comprehensive studies on the eutrophication of fresh-water areas. Determination of algal growth potential by algal assay procedure.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 26,@1-53 (in Japanese with English title).@1981@@@NIES-35@NIES35
1420@Sugahara, K., Kobayashi, Y., Watanabe, M. M., Watanabe, M.@Changes in cellular contents of ATP during growth of red tide algae.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@323-327 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1421@Sugaya, Y., Yasuno, M., Yanai, T.@Effects of toxic Microcystis viridis and isolated toxins on goldfish.@Jpn. J. Limnol.,@51,@149-153.@1990@@fish; hepatotoxin; Microcystis; hemorrhage@NIES-102@NIES102
1422@Sugiura, N., Iwami, N., Itayama, T., Inamori, Y.@Population dynamics of grazer Monas guttula and prey Microcystis viridis using aquatic large scale microcosm.@J. Jpn. Soc. Wat. Environ.,@20,@332-337.@1997@@disappearance process; grazer; Microcystis; microflagellate; large scale microcosm@NIES-102@NIES102
1423@Suzuki, R. & Fujita, Y.@Studies on the Hill reaction of membrane fragments of blue-green algae II. The reaction steps inactivated at high water concentration.@Plant Cell Physiol.,@13,@427-436.@1972@@@NIES-19@NIES19@NIES-23@NIES23
1424@Suzuki, S., Tazawa, R., Miya, A., Adachi, T., Kanki, R., Toyobe, M., Oguchi, M.@Gas revitalization by microalgae. I. Studies on species and culture condition.@CELSS J.,@7,@23-28 (in Japanese with English summary).@1994@@microalgae; Spirulina; SOT medium; culture condition; CO²/O² gas exchange system@NIES-39@NIES39@NIES-45@NIES45@NIES-46@NIES46
1425@Tabata, K.@Cyanobacteria as teaching materials for inquiring biology [Tankyû katsudô no sozai to shite no shiano-bakuteria].@Iden,@50 (9),@58-62 (in Japanese).@1996@@@NIES-24@NIES24
1426@Tada, N., Shibata, S., Otsuka, S., Namba, K., Oyaizu, H.@Comparison of gene arrangements of chloroplasts between two centric diatoms, Skeletonema costatum and Odontella sinensis.@DNA Seq.,@10,@343-347.@1999@@chloroplast; diatom; gene arrangement; Skeletonema costatum@NIES-323@NIES323
1427@Takamura, N., Kasai, F., Watanabe, M. M.@Differences in the tolerant level of benthic algae to heavy metal - The effects of Cu, Cd, and Zn on the photosynthesis.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 114,@223-232 (in Japanese with English summary).@1988@@@NIES-329@NIES329@NIES-434@NIES434@NIES-662@NIES662@NIES-531@NIES531@NIES-538@NIES538@NIES-641@NIES641@NIES-642@NIES642@NIES-305@NIES305@NIES-504@NIES504@NIES-411@NIES411@NIES-412@NIES412@NIES-413@NIES413@NIES-71@NIES71
1428@Takamura, N., Kasai, F., Watanabe, M. M.@Effects of Cu, Cd and Zn on photosynthesis of freshwater benthic algae.@J. Appl. Phycol.,@1,@39-52.@1989@@heavy metal; photosynthesis; algae; tolerance@NIES-329@NIES329@NIES-408@NIES408@NIES-433@NIES433@NIES-434@NIES434@NIES-465@NIES465@NIES-466@NIES466@NIES-479@NIES479@NIES-481@NIES481@NIES-503@NIES503@NIES-505@NIES505@NIES-506@NIES506@NIES-507@NIES507@NIES-509@NIES509@NIES-510@NIES510@NIES-529@NIES529@NIES-530@NIES530@NIES-531@NIES531@NIES-532@NIES532@NIES-536@NIES536@NIES-538@NIES538@NIES-540@NIES540@NIES-620@NIES620@NIES-639@NIES639@NIES-640@NIES640@NIES-641@NIES641@NIES-642@NIES642@NIES-659@NIES659@NIES-660@NIES660@NIES-662@NIES662@NIES-539@NIES539@NIES-661@NIES661@NIES-409@NIES409@NIES-305@NIES305@NIES-537@NIES537@NIES-454@NIES454@NIES-416@NIES416@NIES-515@NIES515@NIES-504@NIES504@NIES-407@NIES407@NIES-410@NIES410@NIES-411@NIES411@NIES-412@NIES412@NIES-413@NIES413@NIES-414@NIES414@NIES-461@NIES461@NIES-467@NIES467@NIES-487@NIES487@NIES-71@NIES71
1429@Takamura, N., Kasai, F., Watanabe, M. M.@Unique response of Cyanophyceae to copper.@J. Appl. Phycol.,@2,@293-296.@1990@@heavy metal; photosynthesis; periphyton; tolerance; Cyanophyceae; genetic adaptation@NIES-507@NIES507@NIES-509@NIES509@NIES-505@NIES505@NIES-434@NIES434@NIES-433@NIES433@NIES-479@NIES479@NIES-530@NIES530@NIES-515@NIES515@NIES-504@NIES504
1430@Takeda, H.@Classification of Chlorella strains by cell wall sugar composition.@Phytochemistry,@27,@3823-3826.@1988@@Chlorella ellipsoidea; C. fusca; C. kessleri; C. saccharophila; C. sorokiniana; C. vulgaris; Chlorophyta; anisotropy; cell wall sugar composition; chemotaxonomy; Ruthenium Red staining@NIES-2150@NIES2150@NIES-2160@NIES2160@NIES-226@NIES226@NIES-2170@NIES2170
1431@Takishita, K., Koike, K., Maruyama, T., Ogata, T.@Molecular evidence for plastid robbery (kleptoplastidy) in Dinophysis, a dinoflagellate causing diarrhetic shellfish poisoning.@Protist,@153,@293-302.@2002@@@NIES-715@NIES715@NIES-274@NIES274
1432@Takishita, K. & Uchida, A.@Molecular cloning and nucleotide sequence analysis of psbA from the dinoflagellates: origin of the dinoflagellate plastid.@Phycol. Res.,@47,@207-216.@1999@@D1; dinoflagellate; phylogenetic analysis; plastid; psbA@NIES-12@NIES12@NIES-331@NIES331
1433@Tan, S. & Ho, K.-K.@Purification of an acidic plastocyanin from Microcystis aeruginosa.@Biochim. Biophys. Acta,@973,@111-117.@1989@@plastocyanin; cytochrome c-553; absorption chromatography; cyanobacteria; photosynthesis@NIES-44@NIES44
1434@Tanaka, S. & Nozaki, H.@Notes on microalgae in Japan (3). Pteromonas angulosa (Carter) Lemmermann (Chlorophyceae, Volvocales).@Jpn. J. Phycol. (Sôrui),@45,@183-184 (in Japanese with English title).@1997@@@NIES-738@NIES738@NIES-739@NIES739@NIES-740@NIES740
1435@Terasaki, M. & Itabashi, Y.@Free fatty acid level and galactolipase activity in a red tide flagellate Chattonella marina (Raphidophyceae).@J. Oleo Sci.,@51,@213-218.@2002@@Chattonella marina; free fatty acid; galactolipase; monogalactosyldiacylglycerol@NIES-3@NIES3
1436@Terasaki, M., Itabashi, Y., Suzuki, T., Nishimura, K.@An improved method for determining the composition of FFA in red tide flagellates by RP-HPLC with fluorescence detection.@J. Am. Oil Chem. Soc.,@79,@1181-1186.@2002@@9-anthryldiazomethane; Chattonella antiqua; Chattonella marina; fluorescence detection; free fatty acid; Heterosigma akashiwo; reversed-phase HPLC@NIES-1@NIES1@NIES-3@NIES3
1437@Tjahjono, A. E., Hayama, Y., Kakizono, T., Terada, Y., Nishio, N., Nagai, S.@Hyper-accumulation of astaxanthin in a green alga Haematococcus pluvialis at elevated temperatures.@Biotechnol. Lett., @16,@133-138.@1994@@@NIES-144@NIES144
1438@Tjahjono, A. E., Kakizono, T., Hayama, Y., Nagai, S.@Formation and regeneration of protoplast from a unicellular green alga Haematococcus pluvialis.@J. Ferment. Bioeng.,@75,@196-200.@1993@@@NIES-144@NIES144
1439@Tjahjono, A. E., Kakizono, T., Hayama, Y., Nishio, N., Nagai S.@Isolation of resistant mutants against carotenoid biosynthesis inhibitors for a green alga Haematococcus pluvialis, and their hybrid formation by protoplast fusion for breeding of higher astaxanthin producers.@J. Ferment. Bioeng.,@77,@352-357.@1994@@@NIES-144@NIES144
1440@Tohezou, Y., Iwata, T., Nakayama, E.@The research on the eutrophication of the sea area. - The situation of AGP in Toyama Bay - Bull.@Toyama Pref. Environ. Sci. Res. Center,@27,@39-44 (in Japanese with English summary).@1999@@@NIES-561@NIES561
1441@Tominaga, H., Hayashida, Y., Hosoya, Y., Kurokawa, M., Sawa, Y., Ochiai, H.@Characterization of a small cryptic plasmid, pPF1, from Phormidium foveolarum and vector construction.@Biosci. Biotechnol. Biochem.,@57,@1795-1799.@1993@@@NIES-32@NIES32
1442@Tominaga, H., Soejima, K., Kawagishi, S., Ashida, H., Sawa, Y., Ochiai, H.@Structural organization of a cryptic plasmid, pMA1, from Microcystis aeruginosa f. aeruginosa Kutzing.@Biosci. Biotechnol. Biochem.,@57,@1503-1507.@1993@@@NIES-87@NIES87
1443@Toume, K. & Ishibashi, M.@5α, 8α-epidioxysterol sulfate from a diatom Odontella aurita.@Phytochemistry,@61,@359-360.@2002@@Odontella aurita; diatom; 5a, 8a-epidioxysterol; sulfate@NIES-589@NIES589
1444@Toyomizu, M., Suzuki, K., Kawata, Y., Kojima, H., Akiba, Y.@Effective transformation of the cyanobacterium Spirulina platensis using electroporation.@J. Appl. Phycol.,@13,@209-214.@2001@@Arthrospira platensis; cyanobacterium; blue-green alga; electroporation; feed enzyme; poultry; Spirulina; transformation@NIES-39@NIES39
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1446@Tsubo, Y., Ueda, T., Yokomura, E.@Chloroplast autonomy revealed by nutritionally controlled Euglena gracilis.@In Proceedings of the Seventh International Seaweed Symposium, University of Tokyo Press, Tokyo,@@p. 336-338.@1971@@@NIES-48@NIES48
1447@Tsuchiya, Y., Watanabe, M. F., Watanabe, M.@Volatile organic sulfur compounds associated with blue-green algae from inland waters of Japan.@Wat. Sci. Tech.,@25,@123-130.@1992@@blue-green algae; Microcystis aeruginosa; M. wesenbergii; isopropyl mercaptan; isopropyl disulfide; isopropyl sulfonyl chloride; chlorination; mutagenicity; Ames test@NIES-1061@NIES1061@NIES-1080@NIES1080@NIES-1081@NIES1081@NIES-1083@NIES1083@NIES-1098@NIES1098@NIES-1104@NIES1104@NIES-1137@NIES1137@NIES-88@NIES88
1448@Tsuji, T. & Fujita, Y.@Ascorbate photo-oxidation by a photochemically active chromo-protein isolated from the blue-green alga Anabaena cylindrica: the effect of mono-chromatic illumination.@Plant Cell Physiol.,@12,@807-811.@1971@@@NIES-19@NIES19
1449@Tsuji, T. & Fujita, Y.@Electron donor-specificity observed in photosystem I reactions of membrane fragments of the blue-green alga Anabaena variabilis and the higher plant Spinacea oleracea.@Plant Cell Physiol.,@13,@93-99.@1972@@@NIES-23@NIES23
1450@Tsukui, T. & Yamazaki, M.@Studies on eutrophication in rivers (II). Determination of AGP in the Kanda River System.@Tokyo-to Kankyô Kagaku Kenkyûjo Nenpô 1992,@@162-166 (in Japanese with English Summary).@1992@@@NIES-35@NIES35
1451@Tsusue, Y. & Fujita, Y.@Mono- and oligo-saccharides in the blue-green alga, Tolypothrix tenuis.@J. Gen. Appl. Microbiol.,@10,@283-294.@1964@@@NIES-37@NIES37
1452@Turmel, M., Lemieux, C., Burger, G., Lang, B. F., Otis, C., Plante, I., Gray, M. W.@The complete mitochondrial DNA sequences of Nephroselmis olivacea and Pedinomonas minor: Two radically different evolutionary patterns within green algae.@Plant Cell,@11,@1717-1729.@1999a@@@NIES-484@NIES484
1453@Turmel, M., Otis, C., Lemieux, C.@The complete chloroplast DNA sequence of the green alga Nephroselmis olivacea: Insights into the architecture of ancestral chloroplast genomes.@Proc. Nati. Acad. Sci. U. S. A.,@96,@10248-10253.@1999b@@@NIES-484@NIES484
1454@Turmel, M., Otis, C., Lemieux, C.@The complete mitochondrial DNA sequence of Mesostigma viride identifies this green alga as the earliest green plant divergence and predicts a highly compact mitochondrial genome in the ancestor of all green plants.@Mol. Biol. Evol.,@19,@24-38.@2002b@@green aglae; Mesostigma viride;mitochondrial DNA; group I introns; group II introns; trans-splicing@NIES-296@NIES296
1455@Ubekôsan Co. Ltd.@Effects of UR-158 on the algal mortality [UR-158 no sassôkôka].@Unpublished report in Ubekôsan Co. Ltd,@@3 pp. (in Japanese).@1988@@@NIES-32@NIES32@NIES-227@NIES227
1456@Uchida, A., Nagasaki, K., Hiroishi, S., Ishida, Y.@The application of monoclonal antibodies to an identification of Chattonella marina and Chattonella antiqua.@Bull. Jpn. Soc. Sci. Fish.,@55,@721-725.@1989@@@NIES-83@NIES83@NIES-121@NIES121@NIES-3@NIES3@NIES-86@NIES86@NIES-118@NIES118
1457@Uchida, H., Kitae, K., Tomizawa, K., Yokota, A.@Comparison of the nucleotide sequence and secondary structure of the 5.8S ribosomal RNA gene of Chlamydomonas tetragama with those of green algae.@DNA Seq.,@8,@403-408.@1998@@5.8S ribosomal RNA gene; Chlamydomonas@NIES-446@NIES446
1458@Ueda, K. & Nonaka, M.@Division of chloroplasts in a green alga, Pediastrum duplex.@Ann. Bot.,@69,@113-118.@1992@@cell wall; chloroplast division; freeze-substitution; intermediate fibres; Pediastrum duplex; transmission electron microscopy@NIES-212@NIES212
1459@Ukai, Y., Fujita, Y., Morimura, Y., Watanabe, A.@Studies on growth of blue green alga Tolypothrix tenuis.@J. Gen. Appl. Microbiol.,@4,@163-169.@1958@@@NIES-37@NIES37
1460@Uye, S. & Takamatsu, K.@Feeding inter-actions between planktonic copepods and red-tide flagellates from Japanese coastal waters.@Mar. Ecol. Prog. Ser.,@59,@97-107.@1990@@@NIES-12@NIES12@NIES-221@NIES221@NIES-15@NIES15@NIES-235@NIES235@NIES-251@NIES251
1461@Wada, M., Hara, Y., Kato, M., Yamada, M., Fujii, T.@Diurnal appearance, fine structure, and chemical composition of fatty particles in Heterosigma akashiwo (Raphidophyceae).@Protoplasma,@137,@134-139.@1987@@@NIES-6@NIES6
1462@Wada, M., Satoh, S., Kasamo, k., Fujii, T.@Presence of a Na⁺-activated ATPase in the plasma membrane of the marine raphidophycean Heterosigma akashiwo.@Plant Cell Physiol.,@30,@923-928.@1989@@ATPase; Heterosigma akashiwo; plasma membrane; sodium ion@NIES-6@NIES6
1463@Wada, M., Urayama, O., Satoh, S., Hara, Y., Ikawa, Y., Fujii, T.@A marine algal Na⁺-activated ATPase possesses an immunologically identical epitope to Na⁺, K⁺-ATPase.@FEBS Lett., @309,@272-274.@1992@@Akashiwo; Na+-ATPase; Na+, K+-ATPase; epitope mapping; antibody@NIES-6@NIES6
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1465@Watanabe, A.@List of algal strains in collection at the Institute of Applied Microbiology, University of Tokyo.@J. Gen. Appl. Microbiol.,@6,@283-292.@1960@Medium (MDM, MKM)@@NIES-29@NIES29@NIES-226@NIES226@NIES-26@NIES26@NIES-49@NIES49@NIES-47@NIES47@NIES-37@NIES37@NIES-25@NIES25@NIES-22@NIES22@NIES-21@NIES21@NIES-19@NIES19@NIES-23@NIES23@NIES-227@NIES227@NIES-24@NIES24@NIES-28@NIES28
1466@Watanabe, A.@Effect of nitrogen-fixing blue-green alga: Tolypothrix tenuis on the nitrogenous fertility of paddy soil and on the crop yield of rice plant.@J. Gen. Appl. Microbiol.,@8,@85-91.@1962@@@NIES-37@NIES37
1467@Watanabe, A., Hattori, A., Fujita, Y., Kiyohara, T.@Large scale culture of a blue-green alga, Tolypothrix tenuis, utilizing hot spring and natural gas as heat and carbon dioxide sources.@J. Gen. Appl. Microbiol.,@5,@51-57.@1959@@@NIES-37@NIES37
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1469@Watanabe, A., Ito, R., Sasa, T.@Effect of various chemicals upon the growth of daphnids.@J. Gen. Appl. Microbiol.,@1,@190-193.@1955@@@NIES-37@NIES37
1470@Watanabe, A., Shirota, M., Endo, H., Yamamoto, Y.@An observation of the practical applications of nitrogen fixing blue-green algae for rice cultivation.@In The Third International Conference on the Global Impacts of Applied Microbiology, Bombay,@@pp. 53-64.@1969@@@NIES-37@NIES37
1471@Watanabe, A. & Yamamoto, Y.@Heterotrophic nitrogen fixation by the blue-green alga Anabaenopsis circularis.@Nature,@214,@738@1967@@@NIES-21@NIES21
1472@Watanabe, A. & Yamamoto, Y.@Effects of antibiotics on the growth of microalgae.@Phykos,@7,@248-258.@1968@@@NIES-37@NIES37@NIES-19@NIES19
1473@Watanabe, F., Miyamoto, E., Nakano, Y.@Inactive corrinoid-compound significantly decreases in Spirulina platensis grown in a cobalt-deficient medium.@J. Agric. Food Chem.,@49,@5685-5688.@2001@@Vitamin B12; pseudovitamin B12; algal health food; spirulina tablet; intrinsic facto@NIES-39@NIES39
1474@Watanabe, K. I., Ehara, M., Inagaki, Y., Ohama, T.@Distinctive origins of group I introns found in the COXI genes of three green algae.@Gene,@213,@1-7.@1998@@Group I intron; Chlorella vulgaris; Scenedesmus quadricauda; Protosiphon botryoides; cytochrome c oxidase subunit I; intron homing; frameshift@NIES-227@NIES227@NIES-96@NIES96
1475@Watanabe, M.@A preliminary study of Gonium viridistellatum sp. nov. (Chlorophyta, Volvocaceae).@Bull. Jpn. Soc. Phycol.,@25,@Suppl. (Mem. Iss. Yamada), 379-384.@1977@@@NIES-288@NIES288@NIES-290@NIES290@NIES-289@NIES289
1476@Watanabe, M.@A taxonomic study of the Closterium calosporum complex (1).@Bull. Natn. Sci. Mus., Ser. B (Bot.),@4,@133-154, pls. 1-8.@1978@@@NIES-163@NIES163@NIES-164@NIES164@NIES-168@NIES168@NIES-171@NIES171@NIES-186@NIES186@NIES-341@NIES341@NIES-189@NIES189@NIES-192@NIES192@NIES-193@NIES193@NIES-197@NIES197@NIES-165@NIES165@NIES-339@NIES339@NIES-187@NIES187@NIES-188@NIES188@NIES-191@NIES191@NIES-194@NIES194
1477@Watanabe, M.@A taxonomic study of the Closterium calosporum complex (2).@Bull. Natn. Sci. Mus., Ser. B (Bot.),@5,@1-23, pls. 9-11.@1979@@@NIES-163@NIES163@NIES-164@NIES164@NIES-168@NIES168@NIES-340@NIES340@NIES-186@NIES186@NIES-341@NIES341@NIES-189@NIES189@NIES-192@NIES192@NIES-197@NIES197@NIES-165@NIES165@NIES-339@NIES339@NIES-187@NIES187@NIES-188@NIES188@NIES-191@NIES191@NIES-194@NIES194
1478@Watanabe, M.@The diurnal variations in the cell densities of Olisthodiscus luteus and Skeletonema costatum.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@143-154 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1479@Watanabe, M.@Isolation, cultivation and classification of bloom-forming Microcystis in Japan.@In Toxic Microcystis, Eds. by Watanabe, M.F., Harada, K., Carmichael W.W. & Fujii, H., CRC Press, Boca Raton,@@pp. 13-34.@1996@@@NIES-1050@NIES1050@NIES-1051@NIES1051@NIES-1052@NIES1052@NIES-1053@NIES1053@NIES-1065@NIES1065@NIES-1066@NIES1066@NIES-1074@NIES1074@NIES-1075@NIES1075@NIES-1079@NIES1079@NIES-1080@NIES1080@NIES-1081@NIES1081@NIES-1083@NIES1083@NIES-1087@NIES1087@NIES-1088@NIES1088@NIES-1089@NIES1089@NIES-1093@NIES1093@NIES-1098@NIES1098@NIES-1107@NIES1107@NIES-1109@NIES1109@NIES-1110@NIES1110@NIES-1125@NIES1125@NIES-1127@NIES1127@NIES-1130@NIES1130@NIES-1134@NIES1134@NIES-1140@NIES1140@NIES-1146@NIES1146@NIES-1147@NIES1147@NIES-1149@NIES1149@NIES-1152@NIES1152@NIES-1153@NIES1153@NIES-1154@NIES1154@NIES-1155@NIES1155@NIES-1157@NIES1157@NIES-1159@NIES1159@NIES-1160@NIES1160@NIES-1161@NIES1161@NIES-1162@NIES1162@NIES-1163@NIES1163@NIES-1173@NIES1173@NIES-1178@NIES1178@NIES-1184@NIES1184@NIES-1187@NIES1187@NIES-1189@NIES1189@NIES-1194@NIES1194@NIES-1196@NIES1196@NIES-1198@NIES1198@NIES-1200@NIES1200@NIES-1203@NIES1203@NIES-1205@NIES1205@NIES-1216@NIES1216@NIES-1225@NIES1225@NIES-1232@NIES1232@NIES-1234@NIES1234@NIES-1237@NIES1237@NIES-1239@NIES1239@NIES-1241@NIES1241@NIES-1243@NIES1243@NIES-1246@NIES1246@NIES-1090@NIES1090@NIES-1068@NIES1068@NIES-1061@NIES1061@NIES-1076@NIES1076@NIES-1133@NIES1133@NIES-1115@NIES1115@NIES-1117@NIES1117@NIES-1164@NIES1164@NIES-1182@NIES1182@NIES-1105@NIES1105@NIES-1070@NIES1070@NIES-1213@NIES1213@NIES-1113@NIES1113@NIES-1108@NIES1108@NIES-1097@NIES1097@NIES-1126@NIES1126@NIES-1067@NIES1067@NIES-1139@NIES1139@NIES-1141@NIES1141@NIES-1142@NIES1142@NIES-1219@NIES1219@NIES-1222@NIES1222@NIES-1230@NIES1230@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1183@NIES1183@NIES-1054@NIES1054@NIES-1086@NIES1086@NIES-1206@NIES1206@NIES-1122@NIES1122@NIES-1116@NIES1116@NIES-1124@NIES1124@NIES-1209@NIES1209@NIES-1071@NIES1071@NIES-1099@NIES1099@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1082@NIES1082@NIES-1132@NIES1132
1480@Watanabe, M. & Harashima, A.@Bio-convection in culture of Olisthodiscus luteus and Rayleigh-Taylor instability.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@155-173 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1481@Watanabe, M. & Harashima, A.@The distribution pattern of Olisthodiscus luteus in convection cells.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@175-190 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1482@Watanabe, M., Kohata, K., Kunugi, M.@Diel vertical migration of Heterosigma akashiwo under salinity and phosphate stratifications and metabolism of intracellular phosphate pools.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 110,@103-114 (in Japanese with English summary).@1987@@@NIES-6@NIES6
1483@Watanabe, M., Kohata, K., Kunugi, M.@31P nuclear magnetic resonance study of intracellular phosphate pools and polyphosphate metabolism in Heterosigma akashiwo (Hada) Hada (Raphidophyceae).@J. Phycol.,@23,@54-62.@1987@@cell extraction; Heterosigma akashiwo; intracellular phosphate; phosphodiester; 31P-NMR; polyphosphate; Raphidophyceae; sugar-phosphate@NIES-6@NIES6
1484@Watanabe, M., Kohata, K., Kunugi, M.@Phosphate accumulation and metabolism by Heterosigma akashiwo (Raphidophyceae) during diel vertical migration in a stratified microcosm.@J. Phycol.,@24,@22-28.@1988@@ATP; diel vertical migration; Heterosigma akashiwo; intracellular phosphate; 31P-NMR; phosphate accumulation; polyphosphates; Raphidophyceae; salinity and nutrient stratifications@NIES-6@NIES6
1485@Watanabe, M., Takamatsu, T., Kohata, K., Kunugi, M., Kawashima, M., Koyama, M.@Luxury phosphate uptake and variation of intracellular metal concentrations in Heterosigma akashiwo (Raphidoohyceae).@J. Phycol.,@25,@428-436.@1989@@ESR; Heterosigma akashiwo; intracellular metals; luxury phosphate uptake; neutron activation analysis; polyphosphate; 31P-NMR@NIES-6@NIES6
1486@Watanabe, M., Watanabe, M. M., Kohata, K., Harashima, A.@The use of a controlled experimental ecosystem (Microcosm) in studies of the mechanism of red tide outbreaks.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@11-26 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1487@Watanabe, M. F.@Cultivation of toxic blue-green algae [Yûdoku-ransô no baiyô].@In Waterbloom of Blue-green Algae and Their Toxins [Aoko, sono shutsugen to dokuso], Eds. by Watanabe, M. F., Harada,K. & Fujii, H., University of Tokyo Press,@@pp. 101-116 (in Japanese).@1994@@@NIES-1059@NIES1059@NIES-1091@NIES1091
1488@Watanabe, M. F.@Production of microcystins.@In Toxic Microcystis, Eds. by Watanabe, M. F., Harada, K., Carmichael W. W. & Fujii, H., CRC Press, Boca Raton,@@pp. 35-56.@1996@@@NIES-1053@NIES1053@NIES-1059@NIES1059@NIES-1066@NIES1066@NIES-1074@NIES1074@NIES-1079@NIES1079@NIES-1081@NIES1081@NIES-1083@NIES1083@NIES-1093@NIES1093@NIES-1098@NIES1098@NIES-1140@NIES1140@NIES-1090@NIES1090@NIES-1068@NIES1068@NIES-1061@NIES1061@NIES-1076@NIES1076@NIES-1091@NIES1091@NIES-1070@NIES1070@NIES-1097@NIES1097@NIES-1067@NIES1067@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1054@NIES1054@NIES-1086@NIES1086@NIES-1071@NIES1071@NIES-1099@NIES1099@NIES-1072@NIES1072@NIES-1085@NIES1085
1489@Watanabe, M. F., Oishi, S., Watanabe, Y., Watanabe, M.@Strong probability of lethal toxicity in the blue-green alga Microcystis viridis Lemmermann.@J. Phycol.,@22,@552-556.@1986@@@NIES-1053@NIES1053@NIES-1059@NIES1059@NIES-100@NIES100@NIES-1058@NIES1058@NIES-1091@NIES1091@NIES-112@NIES112@NIES-1067@NIES1067@NIES-1055@NIES1055@NIES-1054@NIES1054@NIES-98@NIES98@NIES-298@NIES298@NIES-101@NIES101@NIES-103@NIES103
1490@Watanabe, M. F. & Watanabe, M.@Bloom-forming cyanophytes and their toxins [Aoko wo tsukuru ransô to sono dokuso].@Mizu,@36,@24-29 (in Japanese).@1994@@@NIES-1064@NIES1064@NIES-1066@NIES1066@NIES-1070@NIES1070@NIES-1077@NIES1077@NIES-1093@NIES1093@NIES-1095@NIES1095@NIES-1086@NIES1086@NIES-1071@NIES1071@NIES-1099@NIES1099
1491@Watanabe, M. F., Watanabe, M., Kato, T., Harada, K., Suzuki, M.@Composition of cyclic peptide toxins among strains of Microcystis aeruginosa (blue-green algae, Cyanobacteria).@Bot. Mag. Tokyo,@104,@49-57.@1991@@blue-green algae; cyanobacteria; cyclic peptide; Microcystis; strain; toxin@NIES-1053@NIES1053@NIES-1060@NIES1060@NIES-1061@NIES1061@NIES-1066@NIES1066@NIES-1068@NIES1068@NIES-1074@NIES1074@NIES-1076@NIES1076@NIES-1079@NIES1079@NIES-1080@NIES1080@NIES-1081@NIES1081@NIES-1083@NIES1083@NIES-1090@NIES1090@NIES-1093@NIES1093@NIES-1098@NIES1098@NIES-1140@NIES1140@NIES-3349@NIES3349@NIES-1070@NIES1070@NIES-1097@NIES1097@NIES-1067@NIES1067@NIES-1142@NIES1142@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1054@NIES1054@NIES-1086@NIES1086@NIES-1071@NIES1071@NIES-1099@NIES1099@NIES-1072@NIES1072@NIES-1085@NIES1085
1492@Watanabe, M. M.@Biosystematics in Closterium of sexual unicellular green algae and Calothrix and Spirulina of asexual filamentous blue-green algae, with special reference to the analyses of natural populations.@Thesis D. Sci., Hokkaido University,@@114 pp., 28 tables, 54 figs.@1977@@@NIES-51@NIES51@NIES-56@NIES56@NIES-66@NIES66@NIES-39@NIES39@NIES-45@NIES45@NIES-68@NIES68@NIES-58@NIES58@NIES-52@NIES52@NIES-53@NIES53@NIES-54@NIES54@NIES-60@NIES60@NIES-59@NIES59@NIES-55@NIES55@NIES-46@NIES46@NIES-266@NIES266@NIES-268@NIES268@NIES-261@NIES261@NIES-61@NIES61@NIES-67@NIES67@NIES-65@NIES65@NIES-69@NIES69@NIES-70@NIES70@NIES-62@NIES62@NIES-63@NIES63@NIES-64@NIES64
1493@Watanabe, M. M.@Toxicity of algae [Sôrui no dokusei].@Jpn. J. Water Poll. Res.,@12,@750-756 (in Japanese).@1989@@@NIES-102@NIES102
1494@Watanabe, M. M. & Ichimura, T.@Fresh- and salt-water forms of Spirulina platensis in axenic cultures.@Bull. Jpn. Soc. Phycol.,@25,@Suppl. (Mem. Iss. Yamada), 371-377.@1977@Medium (CT)@@NIES-39@NIES39@NIES-45@NIES45@NIES-46@NIES46
1495@Watanabe, M. M. & Ichimura, T.@Biosystematic studies of the Closterium peracerosum-strigosum-littorale complex. II. Reproductive isolation and morphological variation among several populations from the Northern Kanto area in Japan.@Bot. Mag. Tokyo,@91,@1-10.@1978@@@NIES-51@NIES51@NIES-56@NIES56@NIES-58@NIES58@NIES-52@NIES52@NIES-53@NIES53@NIES-54@NIES54@NIES-60@NIES60@NIES-59@NIES59@NIES-55@NIES55@NIES-261@NIES261@NIES-61@NIES61@NIES-65@NIES65@NIES-69@NIES69@NIES-70@NIES70@NIES-62@NIES62@NIES-63@NIES63@NIES-64@NIES64
1496@Watanabe, M. M. & Ichimura, T.@Biosystematic studies of the Closterium peracerosum-strigosum-littorale complex. III. Degrees of sexual isolation among the three population groups from the Northern Kanto area.@Bot. Mag. Tokyo,@91,@11-24.@1978@@@NIES-51@NIES51@NIES-56@NIES56@NIES-58@NIES58@NIES-52@NIES52@NIES-53@NIES53@NIES-54@NIES54@NIES-60@NIES60@NIES-59@NIES59@NIES-55@NIES55@NIES-261@NIES261@NIES-61@NIES61@NIES-65@NIES65@NIES-69@NIES69@NIES-70@NIES70@NIES-62@NIES62@NIES-63@NIES63@NIES-64@NIES64
1497@Watanabe, M. M. & Ichimura, T.@Biosystematic studies of the Closterium peracerosum-strigosum-littorale complex. IV. Hybrid breakdown between two closely related groups, Group II-A and Group II-B.@Bot. Mag. Tokyo,@95,@241-247.@1982@@Closterium; fertility; hybrid breakdown; post-zygotic isolating mechanism; viability@NIES-51@NIES51@NIES-52@NIES52@NIES-53@NIES53@NIES-65@NIES65@NIES-64@NIES64
1498@Watanabe, M. M., Kasai, F., Hiwatari, T., Suda, S., Nei, T.@Cryopreservation of microalgae in liquid nitrogen - Survival of algal cultures after freezing.@Jpn. J. Freez. Dry.,@30,@23-26 (in Japanese with English title).@1984@@@NIES-39@NIES39@NIES-45@NIES45@NIES-75@NIES75@NIES-77@NIES77@NIES-18@NIES18@NIES-29@NIES29@NIES-74@NIES74@NIES-95@NIES95@NIES-100@NIES100@NIES-120@NIES120@NIES-131@NIES131@NIES-135@NIES135@NIES-379@NIES379@NIES-2239@NIES2239@NIES-137@NIES137@NIES-204@NIES204@NIES-263@NIES263@NIES-144@NIES144@NIES-26@NIES26@NIES-44@NIES44@NIES-207@NIES207@NIES-415@NIES415@NIES-40@NIES40@NIES-88@NIES88@NIES-81@NIES81@NIES-46@NIES46@NIES-80@NIES80@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-73@NIES73@NIES-50@NIES50@NIES-21@NIES21@NIES-93@NIES93@NIES-19@NIES19@NIES-31@NIES31@NIES-98@NIES98@NIES-2235@NIES2235@NIES-2219@NIES2219@NIES-41@NIES41@NIES-91@NIES91@NIES-76@NIES76@NIES-101@NIES101@NIES-122@NIES122@NIES-151@NIES151@NIES-24@NIES24@NIES-213@NIES213@NIES-257@NIES257@NIES-2579@NIES2579@NIES-90@NIES90
1499@Watanabe, M. M., Kohata, K., Nakamura, Y., Watanabe, M.@Phosphate-limited continuous culture of a red tide flagellate, Olisthodiscus luteus: establishment of its method and the analysis of growth kinetics.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@113-130 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1500@Watanabe, M. M. & Kurogi, M.@Taxonomic reexamination of the two species of blue-green algae, Calothrix scopulorum and C. crustacea.@Bot. Mag. Tokyo,@88,@111-125.@1975@@@NIES-266@NIES266@NIES-268@NIES268
1501@Watanabe, M. M. & Nakamura, Y.@Growth characteristics of a red tide flagellate, Heterosigma akashiwo Hada. 1. The effects of temperature, salinity, light intensity and pH on growth.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@51-58 (in Japanese with English summary).@1984@@@NIES-6@NIES6
1502@Watanabe, M. M. & Nakamura, Y.@Growth characteristics of a red tide flagellate, Heterosigma akashiwo Hada. 2. The utilization of nutrients.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@59-68 (in Japanese with English summary).@1984@@@NIES-6@NIES6
1503@Watanabe, M. M., Nakamura, Y., Kohata, K.@Diurnal vertical migration and dark uptake of nitrate and phosphate of the red tide flagellates, Heterosigma akashiwo Hada and Chattonella antiqua (Hada) Ono (Raphidophyceae).@Jpn. J. Phycol. (Sôrui),@31,@161-166.@1983@@Chattonella antiqua; diurnal vertical migration; Heterosigma akashiwo; nitrate and phosphate uptakes; red tide@NIES-1@NIES1@NIES-6@NIES6
1504@Watanabe, M. M., Nakamura, Y., Kohata, K.@Diurnal vertical migration of a red tide flagellate, Heterosigma akashiwo Hada, with special reference to the ecological role.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@69-77 (in Japanese with English summary).@1984@@@NIES-6@NIES6
1505@Watanabe, M. M., Nakamura, Y., Mori, S., Yamochi, S.@Effects of physico-chemical factors and nutrients on the growth of Heterosigma akashiwo Hada from Osaka Bay, Japan.@Jpn. J. Phycol. (Sôrui),@30,@279-288.@1982@Medium (MASP-7), Pn metals@growth rate; Heterosigma akashiwo; minimum cell quota; Raphidophyceae; red tide@NIES-6@NIES6
1506@Watanabe, M. M. & Sawaguchi, T.@Cryopreservation of a water-bloom forming cyanobacterium, Microcystis aeruginosa f. aeruginosa.@Phycol. Res.,@43,@111-116.@1995@@cryopreservation; DMSO; Microcystis aeruginosa f. aeruginosa; rapid cooling; two step cooling@NIES-44@NIES44@NIES-90@NIES90
1507@Watanabe, M. M., Suda, S., Kasai, F., Sawaguchi, T.@Axenic cultures of the three species of Microcystis (Cyanophyta = Cyanobacteria).@Bull. JFCC,@1,@57-63.@1985@@@NIES-107@NIES107@NIES-111@NIES111@NIES-89@NIES89@NIES-102@NIES102@NIES-298@NIES298
1508@Watanabe, M. M., Yamochi, S., Kohata, K., Watanabe, M.@Vertical migration and diel periodicity of phosphate uptake in a red tide flagellate, Olisthodiscus luteus.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 30,@131-141 (in Japanese with English summary).@1982@@@NIES-6@NIES6
1509@Watanabe, S.@Observations on Urnella terrestris Playfair (Chlorophyceae, Chlorococc-ales) in culture.@Phycologia,@20,@12-15.@1981@@@NIES-156@NIES156
1510@Watanabe, S.@New and interesting green algae from soils of some Asian and Oceanian regions.@Arch. Protistenk.,@127,@223-270.@1983@@@NIES-3572@NIES3572@NIES-4107@NIES4107@NIES-154@NIES154@NIES-158@NIES158@NIES-159@NIES159@NIES-3573@NIES3573@NIES-153@NIES153@NIES-157@NIES157@NIES-155@NIES155@NIES-160@NIES160
1511@Watanabe, Y., Ohmura, N., Saiki, H.@Microbial CO₂ fixation. 2. Isolation and determination of cultural characteristics of Chlorella strains which function under CO₂ enriched atmosphere.@CRIEPI Kenkyû-Hôkoku,@U92014,@1-21 (in Japanese with English summary).@1992@@climate change; CO2; CO2 fixation; microalgae; Chlorella@NIES-45@NIES45@NIES-204@NIES204@NIES-226@NIES226@NIES-158@NIES158@NIES-92@NIES92@NIES-27@NIES27@NIES-227@NIES227@NIES-122@NIES122@NIES-94@NIES94
1512@Yagi, O., Hagiwara, T., Takamura, Y., Sudo, R.@Growth characteristics of axenic and unialgal Microcystis isolated from Lake Kasumigaura.@Jpn. J. Water Poll. Res.,@7,@496-503 (in Japanese with English summary).@1984@@Microcystis; bacteria; growth; axenic; algae@NIES-478@NIES478@NIES-604@NIES604
1513@Yagi, O., Hagiwara, T., Takamura, Y., Sudo, R.@Limiting nutrients of algal growth in Lake Kasumigaura.@Jpn. J. Water Poll. Res.,@10,@115-122 (in Japanese with English summary).@1987@@Microcystis; blue-green algae; nutrients; algal growth potential@NIES-478@NIES478@NIES-35@NIES35
1514@Yagi, O., Ohkubo, N., Tomioka, N., Okada, M.@Limiting nutrients of algal growth in Ushiku Marsh.@Jpn. J. Limnol.,@50,@139-148 (in Japanese with English summary).@1989@@algal growth potential; Microcystis; Selenastrum; nutrient@NIES-478@NIES478@NIES-35@NIES35
1515@Yagi, O., Sudo, R., Imaoka, T., Teranishi, S.@Algal growth potential on munisipal wastewater using red tide organisms.@Res. Rep. Natl. Inst. Environ. Stud.,@No. 63,@231-242 (in Japanese with English summary).@1984@@@NIES-35@NIES35
1516@Yamada, N., Aoyama, K., Yamada, M., Hamamura, N.@Studies on earthy-musty odor in natural water (1). Growth characteristics and 2-methylisoborneol production of Phormidium tenue.@Jpn. J. Water Poll. Res.,@8,@515-521 (in Japanese with English summary).@1985@@blue-green algae; Phormidium tenue; growth characteristics; headspace-GC analysis; 2-methylisoborneol@NIES-512@NIES512
1517@Yamada, N., Aoyama, K., Yamada, M., Hamamura, N.@Studies on earthy-musty odor in natural water (3). Isolation of bacteria-free Phormidium tenue and the effect of associated bacteria on the growth of axenic P. tenue.@Jpn. J. Water Poll. Res.,@9,@379-385 (in Japanese with English summary).@1986@@Phormidium tenue; axenic; growth; 2-methylisoborneol; bacteria interaction@NIES-512@NIES512
1518@Yamaguchi, K., Murakami, M., Okino, T.@Screening of angiotensin-converting enzyme inhibitory activities in microalgae.@J. Appl. Phycol.,@1,@271-275.@1989@@angiotensin converting enzyme; inhibitor; microalgae; peptide; screening@NIES-100@NIES100@NIES-114@NIES114@NIES-14@NIES14@NIES-102@NIES102@NIES-104@NIES104
1519@Yamaguchi, M., Ogawa, T., Muramoto, K., Kamio, Y., Jimbo, M., Kamiya, H.@Isolation and characterization of a mannan-binding lectin from the freshwater cyanobacterium (blue-green algae) Microcystis viridis.@Biochem. Biophys. Res. Commun.,@265,@703-708.@1999@@Microcystis viridis; lectin; cyanobacterium; mannan-binding lectin; blue-green algae; hemaggulutinin@NIES-102@NIES102
1520@Yamaguchi, T., Kobayashi, Y., Adachi, K., Imamura, N.@Argimicins B and C, new anti-cyanobacterial compounds produced by Sphingomonas sp. M-17.@J. Antibiot.,@56,@655-657.@2003@@@NIES-230@NIES230@NIES-45@NIES45@NIES-592@NIES592@NIES-81@NIES81@NIES-102@NIES102@NIES-298@NIES298
1521@Yamamoto, Y.@The fatty acid composition of akinetes, heterocysts and vegetative cells in Anabaena cylindrica.@Plant Cell Physiol.,@13,@913-915.@1972@@@NIES-19@NIES19
1522@Yamamoto, Y.@Effect of desiccation on the germination of akinetes of Anabaena cylindrica.@Plant Cell Physiol.,@16,@749-752.@1975@@@NIES-19@NIES19
1523@Yamamoto, Y.@Effect of some physical and chemical factors on the germination of akinates of Anabaena cylindrica.@J. Gen. Appl. Microbiol.,@22,@311-323.@1976@@@NIES-19@NIES19
1524@Yamamoto, Y.@Detection of algal lysing biological agents in lakes by the soft-agar overlayer technique.@Jpn. J. Limnol,@39,@9-14 (in Japanese with English summary).@1978@@@NIES-19@NIES19
1525@Yamamoto, Y.@Observation on the occurrence of microbial agents which cause lysis of blue-green algae in Lake Kasumigaura.@Jpn. J. Limnol.,@42,@20-27.@1981@@@NIES-19@NIES19
1526@Yamamoto, Y. & Suzuki, K.@Distribution and algal-lysing activity of fruiting myxobacteria in Lake Suwa.@J. Phycol.,@26,@457-462.@1990@@algal-lysing activity; cyanobacteria; fruiting myxobacteria@NIES-112@NIES112@NIES-44@NIES44@NIES-40@NIES40@NIES-99@NIES99@NIES-19@NIES19@NIES-102@NIES102
1527@Yamatogi, T., Miyahara, J., Tanaka, J.@Preculture of noxious red tide flagellate Chattonella antiqua (Raphidophyceae) for AGP assay.@Bull. Nagasaki Pref. Inst. Fish.,@22,@7-13 (in Japanese with English summary).@1996@@@NIES-1@NIES1
1528@Yamochi, S.@Mechanisms for outbreak of Heterosigma akashiwo red tide in Osaka Bay, Japan. Part 1. Nutrient factors involved in controlling the growth of Heterosigma akashiwo Hada.@J. Oceanogr. Soc. Japan,@39,@310-316.@1983@@@NIES-6@NIES6
1529@Yanagida, Y.@An assay system for detecting the effects of weed killers, by using the green microalga Scenedesmus quadricauda [Bisyô ryokusô Scenedesmus quadricauda wo mochiita josôzai no eikyôhyôkahô nitsuite].@Report of Freshwater Fisheries Experiment Station Ibaraki Prefecture,@No. 28,@124-127 (in Japanese).@1992@@@NIES-96@NIES96
1530@Yao, Y., Ujiie, Y., Watanabe, M., Yagi, O., Takamura, Y.@Protein phosphatase ihnibition assay for detection of microcystins in lake water and Microcystis cultures.@Mircob. Environ.,@13,@149-157.@1998@@@NIES-1070@NIES1070@NIES-1091@NIES1091@NIES-1107@NIES1107
1531@Yasumoto, T.@Toxin of the marine micro-algae [Kaiyô bisaisôrui no Tokishin].@BIO Medica,@7,@57-62 (in Japanese).@1992@@@NIES-12@NIES12@NIES-15@NIES15@NIES-1@NIES1@NIES-6@NIES6
1532@Yoshida, T. & Ancajas, R. R.@Application of the acetylene reduction method in nitrogen fixation studies.@Soil Sci. & Plant Nutr.,@16,@234-237.@1970@@@NIES-37@NIES37
1533@Yoshida, T., Yuki, Y., Lei, S., Chinen, H., Yoshida, M., Kondo, R., Hiroishi, S.@Quantitative detection of toxic strains of the cyanobacterial genus Microcystis by competitive PCR.@Microbes Environ.,@18,@16-23.@2003@@competitive PCR; microcystin; Microcystis; peptide synthetase; toxic cyanobacteria@NIES-105@NIES105@NIES-106@NIES106@NIES-108@NIES108@NIES-109@NIES109@NIES-110@NIES110@NIES-299@NIES299@NIES-111@NIES111@NIES-112@NIES112@NIES-88@NIES88@NIES-87@NIES87@NIES-89@NIES89@NIES-102@NIES102@NIES-298@NIES298@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
1534@Yoshizako, F., Nishimura, A., Chubachi, M.@Microbial reduction of cyclohexanone by Chlorella pyrenoidosa Chick.@J. Ferment. Bioeng.,@74,@395-397.@1992@@@NIES-226@NIES226
1535@Yoshizako, F., Nishimura, A., Chubachi, M.@Identification of algal transformation products from alicyclic ketones.@J. Ferment. Bioeng.,@77,@144-147.@1994@@@NIES-226@NIES226
1536@Yoshizako, F., Nishimura, A., Chubachi, M., Horii, T., Ueno, T.@Bioconversion of cyclohexaneacetic acid to monohydroxycyclo-hexaneacetic acids by Chlorella pyrenoidosa Chick.@J. Ferment. Bioeng.,@72,@343-346.@1991@@@NIES-226@NIES226@NIES-227@NIES227
1537@Yoshizako, F., Ogino, M., Nishimura, A., Chubachi, M., Horii, T.@Biotransformation of cyclic β-keto esters by Chlorella pyrenoidosa Chick.@J. Ferment. Bioeng.,@79,@141-145.@1995@@Chlorella pyrenoidosa Chick; cyclic β-keto esters; biotransformation; alkoxycarbolyl group elimination; carbonyl group reduction@NIES-226@NIES226
1538@Yuki, Y., Yoshida, T., Hiroishi, S.@Molecular detection of the toxic cyanobacteria [Yûdoku aoko no bunshi-shikibetsu to yosatsu he-no ôyô].@In Series of Fisheries Science Vol. 143, Prevention and Extermination Strategies of Harmful Algal Blooms [Suisan-gaku shirîzu 134, Yûgai-yûdoku sôrui burûmu no yobô to kujo] , Eds. by Hiroishi, S., Imai, I. & Ishimaru, T., Koseisha-Koseikaku, Tokyo,@@pp. 43-53 (in Japanese).@2002@@@NIES-204@NIES204@NIES-100@NIES100@NIES-105@NIES105@NIES-106@NIES106@NIES-108@NIES108@NIES-109@NIES109@NIES-110@NIES110@NIES-111@NIES111@NIES-112@NIES112@NIES-230@NIES230@NIES-299@NIES299@NIES-88@NIES88@NIES-81@NIES81@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-73@NIES73@NIES-98@NIES98@NIES-102@NIES102@NIES-91@NIES91@NIES-298@NIES298@NIES-101@NIES101@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
1539@Yuki-jirushi [Snow Brand] Milk Products Co.Ltd., Showa Denko K.K.@Separation and purification of useful substances from Euglena [Euglena kara no yûyô-busshitsu no Bunri Seisei].@In The Advanced Technology of the Separation and Purification of the Materials for Physiologically Functional Foods and Their Development [Kinôsei Shokuhin Sozai no Kôdo Bunri Seisei to Kaihatsu], Ed. and published by The Japanese Research and Development Association for the High Separation System in Food Industry [Shokuhin Sangyô Hai-separêshon Sisutemu Gijutu Kenkyû Kumiai], Tokyo,@@pp. 363-382 (in Japanese).@1992@@@NIES-48@NIES48
1540@Imaizumi, M., Sekimoto, H., Noguchi, T.@Induction of sex pheromone secretion and observations of the secretory pathway in the Closterium peracerosum-strigosum-littorale complex.@Plant Sci., @173,@206-212.@2007@@Closterium peracerosum-strigosum-littorale; Immunoelectron microscopy; Protoplast release-inducing protein; Sex pheromone; Sexual reproduction; Zygote formation@NIES-68@NIES68@NIES-67@NIES67
1541@Iwataki, M., Botes, L., Sawaguchi, T., Sekiguchi, K., Fukuyo, Y.@Cellular and body scale structure of Heterocapsa ovata sp. nov. and Heterocapsa orientalis sp. nov. (Peridiniales, Dinophyceae).@Phycologia,@42,@629-637.@2003@@@NIES-472@NIES472
1542@Jang, M. H., Ha, K., Lucas, M. C., Joo, G. J., Takamura, N.@Changes in microcystin production by Microcystis aeruginosa exposed to phytoplanktivorous and omnivorous fish.@Aquat. Toxicol.,@68,@51-59.@2004@@Microcystis aeruginosa; microcystin; fish-induced defence; chemical cues; Hypophthalmichthys molitrix; Carassius gibelio langsdorfi@NIES-44@NIES44@NIES-88@NIES88@NIES-99@NIES99
1543@Makino, W. & Ban, S.@Fecal pellet production between molts in a cyclopoid copopod: patterns, individual variability and implications for growth and development.@Hydrobiologia,@501,@101-107.@2003@@Cyclops; molt; fecal pellet; variations; growth and development@NIES-282@NIES282
1544@Marshall, J. A. & Hallegraeff, G. M.@Comparative ecophysiology of the harmful alga Chattonella marina (Raphidophyceae) from South Australian and Japanese waters.@J. Plankton Res.,@21,@1809-1822.@1999@@@NIES-118@NIES118
1545@Marshall, J. A. & Newman, S.@Differences in photoprotective pigment production between Japanese and Australian strains of Chattonella marina (Raphidophyceae).@J. Exp. Mar. Biol. Ecol.,@272,@13-27.@2002@@ultraviolet radiation; microalgae; raphidophytes; Chattonella; mycosporine amino acids; pigments; xanthophyll cycle; stratospheric ozone depletion@NIES-1@NIES1@NIES-118@NIES118
1546@Marshall, J. A., Hovenden, M., Oda, T., Hallegraeff, G. M.@Photosynthesis does influence superoxide production in the ichthyotoxic alga Chattonella marina (Raphidophyceae).@J. Plankton Res.,@24,@1231-1236.@2002@@@NIES-118@NIES118
1547@Marshall, J. A., Munday, B., Yoshizawa, Y., Hallegraeff, G. M.@Effect of irradiance of superoxide production by Chattonella marina (Raphidophyceae) from south Australia and Japan.@In Harmful Algal Blooms 2000, Eds. by Hallegraeff et al., UNESCO 2001.,@@pp. 316-319.@2001@@@NIES-118@NIES118
1548@Marshall, J. A., Nichols, P. D., Hallegraeff, G. M.@Chemotaxonomic survey of sterols and fatty acids in six marine raphidophyte algae.@J. Appl. Phycol.,@14,@255-265.@2002@@Chattonella antiqua; Chattonella marina; Chattonella subsalsa; chemotaxonomy; fatty acids; Fibrocapsa japonica; Heterosigma akashiwo; Olisthodiscus luteus; phycotoxins; raphydophytes; sterols@NIES-15@NIES15@NIES-118@NIES118
1549@Matsuzaki, M. et al.@Genome sequence of the ultrasmall unicellular red alga Cyanidioschyzon merolae 10D.@Nature,@428,@653-657.@2004@@@NIES-3377@NIES3377@NIES-1332@NIES1332
1550@Nozaki, H.@Origin and evolution of the genera Pleodorina and Volvox (Volvocales).@Biologia, Bratislava,@58,@425-431.@2003@@colonial Volvocales; evolution; molecular phylogeny; Pleodorina; sexual reproduction; Volvox@NIES-544@NIES544
1551@Ohta, N., Matsuzaki, M., Misumi, O., Miyagishima, S., Nozaki, H., Tanaka, K., Shin-I, T., Kohara, Y., Kuroiwa, T.@Complete sequence and analysis of the plastid genome of the unicellular red alga Cyanidioschyzon merolae.@DNA Res.,@10,@67-77.@2003@@Cyanidioschyzon merolae; red algae; plastid; genome sequencing@NIES-3377@NIES3377@NIES-1332@NIES1332
1552@Ohta, N., Sato, N., Kuroiwa, T.@Structure and organization of the mitochondrial genome of the unicellular red alga Cyanidioschyzon merolae deduced from the complete nucleotide sequence.@Nucleic Acids Res., @26,@5190-5198.@1998@@@NIES-3377@NIES3377@NIES-1332@NIES1332
1553@Wada, Y., Yokotera, H., Yamazaki, K., Toyonaga, K.@Study on the multiply capability of phytoplankton at the artificial repetition on blight and dark condition.@Advance in River Engineering,@Vol.10,@465-470 (in Japanese with English summary).@2004@@destratification system; multiply capability; blight and dark condition; Microcystis; algal growth potential; record of light shield@NIES-44@NIES44
1554@Yamaki, H., Sitachitta, N., Sano, T., Kaya, K.@Two new chymotrypsin inhibitors isolated from the cyanobacterium Microcystis aeruginosa NIES-88.@J. Nat. Prod.,@68,@14-18.@2005@@@NIES-88@NIES88
1555@Sano, T., Takagi, H., Kaya, K.@A Dhb-microcystin from the filamentous cyanobacterium Planktothrix rubescens.@Phytochemistry,@65,@2159-2162.@2004@@Planktothrix rubescens; cyanobacterium; microcystin; Dhb-microcystin; hepatotoxin; cyanotoxin@NIES-928@NIES928
1556@Houdai, T., Matsuoka, S., Matsumori, N., Murata, M.@Membrane-permeabilizing activities of amphidinol 3, polyene-polyhydroxy antifungal from a marine dinoflagellate.@Biochem. Biophys. Acta,@1667,@91-100.@2004@@amphidinol; Amphidinium klebsii; amphotericin B@NIES-613@NIES613
1557@Tanabe, Y., Kaya, K., Watanabe, M. M.@Evidence for recombination in the microcystin synthetase (mcy) genes of toxic cyanobacteria Microcystis spp.@J. Mol. Evol.,@58,@633-641.@2004@@cyanobacteria; microcystin synthetase; Microcystis; NRPS; recombination; split decomposition@NIES-107@NIES107@NIES-88@NIES88@NIES-89@NIES89@NIES-102@NIES102@NIES-103@NIES103@NIES-90@NIES90
1558@Hirooka, T., Akiyama, Y., Tsuji, N., Nakamura, T., Nagase, H., Hirata, K., Miyamoto, K.@Removal of hazardous phenols by microalgae under photoautotrophic conditions.@J. Biosci. Bioeng.,@95,@200-203.@2003@@green algae; cyanobacteria; nitrophenol; chlorophenol; bisphenol A; photoautotrophic conditions@NIES-44@NIES44@NIES-422@NIES422@NIES-19@NIES19@NIES-23@NIES23@NIES-437@NIES437
1559@Tsuji, N., Hirooka, T., Nagase, H., Hirata, K., Miyamoto, K.@Photosynthesis-dependent removal of 2,4-dichlorophenol by Chlorella fusca var. vacuolata.@Biotechnol. Lett., @25,@241-244.@2003@@2,4-dichlorophenol; bioremediation; Chlorella fusca var. vacuolata; green algae; photosyntheis@NIES-422@NIES422@NIES-437@NIES437
1560@Dwi, S., Hirata, K., Asada, Y., Miyamoto, K.@Utilization of cyanobacterial biomass from water bloom for bioproduction of lactic acid.@World J. Microbiol. Biotech.,@17,@259-264.@2001@@cyanobacterium; CO2 supplementation; lactic acid; Lactobacillus agilis; L. amylovorus; L. ruminis; starch; water bloom@NIES-44@NIES44@NIES-23@NIES23
1561@Nagase, H., Inthorn, D., Isaji, Y., Oda, A., Hirata, K., Miyamoto, K.@Selective cadmium removal from hard water using NaOH-treated cells of the cyanobacterium Tolypothrix tenuis.@J. Ferment. Bioeng.,@84,@151-154.@1997@@cyanobacteria; cadmium; calcium; magnecium; hard water; sodium hydroxide@NIES-23@NIES23
1562@Shitanda, I., Takada, K., Sakai, Y., Tatsuma, T.@Compact amperometric algal biosensors for the evaluation of water toxicity.@Anal. Chim. Acta,@530,@191-197.@2005@@amperometric biosensor; Chlorella vulgaris; algae; alginate gel; polyion complex; herbicides@NIES-227@NIES227
1563@Koumura, Y., Suzuki, T., Yoshikawa, S., Watanabe, M., Iseki, M.@The origin of photoactivated adenylyl cyclase (PAC), the Euglena blue-light receptor: phylogenetic analysis of orthologues of PAC subunits from several euglenoids and trypanosome-type adenylyl cyclases from Euglena gracilis.@Photochem. Photobiol. Sci., @3,@580-586.@2004@@@NIES-48@NIES48@NIES-381@NIES381
1564@Endo, B., Fujii, T., Kamiya, Y., Sekimoto, H.@Analysis of genomic sequences encoding a sex pheromone from the Closterium peracerosum-strigosum-littorale complex.@J. Plant Res.,@110,@463-467.@1997@@cis-element; Closterium; genomic DNA; protoplast-release- inducing protein (PR-IP); sex pheromone; transcription@NIES-68@NIES68@NIES-67@NIES67
1565@Sekimoto, H., Fukumoto, R., Dohmae, N., Takio, K. Fujii, T., Kamiya, Y.@Molecular cloning of a novel sex pheromone responsible for the release of a different sex pheromone in Closterium peracerosum-strigosum-littorale complex.@Plant Cell Physiol.,@39,@1169-1175.@1998@@Clostreium; conjugation; gamete; mating; sex pheromone; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1566@Sekimoto, H.@Production and secretion of a biologically active Closterium sex pheromone by Saccharomyces cerevisiae.@Plant Physiol. Biochem.,@40,@789-794.@2002@@Closterium; conjugation; pheromone; PR-IP; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1567@Tsuchikane, Y., Fukumoto, R., Akatsuka, S. Fujii, T., Sekimoto, H.@Sex pheromones that induce sexual cell division in the Closterium peracerosum-strigosum-littorale complex (Charophyta).@J. Phycol.,@39,@303-309.@2003@@Closterium; conjugation; gametangial cell; pheromone; sexual cell division; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1568@Sekimoto, H., Tanabe, Y., Takizawa, M., Ito, N., Fukumoto, R., Ito, M.@Expressed sequence tags from the Closterium peracerosum-strigosum-littorale complex, a unicellular charophycean alga, in the sexual reproduction process. @DNA Res.,@10,@147-153.@2003@@Closterium; conjugation; EST; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1569@Akatsuka, S., Sekimoto, H., Iwai, H., Fukumoto, R., Fujii, T.@Mucilage secretion regulated by sex pheromones in Closterium peracerosum-strigosum-littorale complex.@Plant Cell Physiol.,@44,@1081-1087.@2003@@Closterium; mucilage; sex pheromone; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1570@Sekimoto, H.@Molecular characterization of a novel sex pheromone, PR-IP inducer, in Closterium peracerosum-strigosum-littorale complex.@Jpn. J. Phycol. (Sôrui),@52, Suppl.,@117-122.@2004@@Closterium; conjugation; gamete mating; sex pheromone, sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1571@Tanabe, Y., Hasebe, M., Sekimoto, H., Nishiyama, T., Kitani, M., Henschel, K., Münster, T., Theißen, G., Nozaki, H., Ito, M.@Characterizaion of MADS-box genes in charophycean green alga and its implication for the evolution of MADS-box genes.@Proc. Nati. Acad. Sci. U. S. A.,@102,@2436-2441.@2005@@charophyve; land plants; Chara; Coleochaete; Closterium@NIES-68@NIES68@NIES-67@NIES67
1572@Fukumoto, R., Fujii, T., Sekimoto, H.@Cloning and characterization of a cDNA encoding a sexual cell division-inducing pheromone from a unicellular green alga Closterium ehrenbergii. @J. Phycol.,@39,@931-936.@2003@@Closterium; conjugation; pheromone; sexual reproduction; RACE-PCR@NIES-228@NIES228@NIES-229@NIES229
1573@Sekimoto, H.@Intercellular communication during sexual reproduction of Closterium (Conjugatophyceae).@J. Plant Res.,@113,@343-352.@2000@@chemotaxis; Closterium; conjugation; mating; sex pheromone; sexual reproduction@NIES-228@NIES228@NIES-229@NIES229@NIES-65@NIES65@NIES-64@NIES64
1574@Sekimoto, H. & Fukumoto, R.@Sex pheromones in Closterium.@Chem. Regul. Plant,@34,@305-315.@1999@@@NIES-68@NIES68@NIES-67@NIES67@NIES-65@NIES65@NIES-64@NIES64
1575@Hamana, K., Aizaki T., Arai, E., Saito, A., Uchikata, K., Ohnishi, H.@Distribution of norspermidine s a cellular polyamine within micro green algae including non-photosynthetic achlorophyllous Polytoma, Polytomella, Prototheca and Helicosporidium.@J. Gen. Appl. Microbiol.,@50,@289-295.@2004@@Chlorophyta; green alga; Helicosporidium; norspermidine; polyamine; Polytoma; Polytomella; Prototheca@NIES-18@NIES18@NIES-329@NIES329@NIES-536@NIES536@NIES-483@NIES483@NIES-486@NIES486@NIES-255@NIES255@NIES-254@NIES254@NIES-296@NIES296@NIES-251@NIES251
1576@Hamana, K., Sakamoto, A., Nishina, M., Niitsu, M.@Cellular polyamine profile of the phyla Dinophyta, Apicomplexa, Ciliophora, Euglenozoa, Cercozoa and Heterokonta.@J. Gen. Appl. Microbiol.,@50,@297-303.@2004@@Apicomlexa; Cercozoa; Ciliophora; Dinophyta; Euglenozoa; Heterokonta; norspermidine; polyamine@NIES-304@NIES304@NIES-12@NIES12@NIES-286@NIES286@NIES-331@NIES331@NIES-463@NIES463@NIES-387@NIES387@NIES-381@NIES381
1577@Takanami, R., Ozaki, H., Hayashi, S., Yamada, O., Sumino, T.@Algal growth control with mud gels and silver-contained ceramics.@Environ. Eng. Res.,@41,@429-436 (in Japanese with English summary).@2004@@algal bloom; mud gels; silver-contained ceramics@NIES-298@NIES298
1578@Takeda, F., Sakamaki, T., Xu, K., Chiba, N., Nishimura, O., Sudo, R.@Effect of potential allelochemicals extracted from Sargassum horneri on the growth of red tide microalgae.@J. Environ. Syst. and Eng., JSCE,@VII-29,@25-32.@2003@@Sargassum horneri; red tide microalgae; growth inhibition; allelochemicals@NIES-293@NIES293@NIES-1@NIES1@NIES-16@NIES16
1579@Nozaki, H., Matsuzaki, M., Takahara, M., Misumi, O., Kuroiwa, H., Hasegawa, M., Shin-i, T., Kohara, Y., Ogasawara, N., Kuroiwa, T.@The phylogenetic position of red algae revealed by multiple nuclear genes from mitochondria-containing eukaryotes and an alternative hypothesis on the origin of plastids.@J. Mol. Evol.,@56,@485-497.@2003@@eukaryotes; evolution; nuclear genes; outgroup; phylogeny; plantae; plastid; protein-coding genes; red algae@NIES-3377@NIES3377@NIES-1332@NIES1332
1580@Nozaki, H., Matsuzaki, M., Misumi, O., Kuroiwa, H., Hasegawa, M., Higashiyama, T., Shin-i, T., Kohara, Y., Ogasawara, N., Kuroiwa, T.@Cyanobarterial genes transmitted to the nucleus before divergence of red algae in the Chromista.@J. Mol. Evol.,@59,@103-113.@2004@@Chromista; cyanobacterial nuclear genes; phylogeny; plastids; primary endosymbiosis; secondary endosymbiosis@NIES-3377@NIES3377@NIES-1332@NIES1332
1581@Nakazawa, A., Yamada, T., Nozaki, H.@Taxonomic study of Asterococcus (Chlorophyceae) based on comparative morphology and rbcL gene sequences.@Phycologia,@43,@711-721.@2004@@@NIES-1331@NIES1331
1582@Takishita, K., Ishida, K-I., Maruyama, T.@An enigmatic GAPDH gene in the symbiotic dinoflagellate genus Symbiodinium and its related species (the Order Suessiales): possible lateral gene transfer between two eukaryotic algae, dinoflagellate and euglenophyte.@Protist,@154,@443-454.@2003@@@NIES-613@NIES613
1583@Suda, S., Watanabe, M. M., Inouye, I.@Electron microscopy of sexual reproduction in Nephroselmis olivacea (Prasinophyceae, Chlorophyta).@Phycol. Res.,@52,@273-283.@2004@@electron microscopy; endoplasmic reticulum; germination; Nephroselmis olivacea; Prasinophyceae; sexual reproduction; zygote formation; zygote wall@NIES-485@NIES485@NIES-483@NIES483
1584@Niiyama, Y.@Morphology and systematics of Anabaena strains in National Science Museum.@Jpn. J. Phycol. (Sôrui),@44,@1-8 (in Japanese with English summary).@1996@@akinetes; algal strain; Anabaena; heterocytes; vegetative cells@NIES-809@NIES809@NIES-819@NIES819@NIES-821@NIES821@NIES-827@NIES827@NIES-1640@NIES1640@NIES-1655@NIES1655@NIES-1670@NIES1670@NIES-1671@NIES1671@NIES-1695@NIES1695@NIES-1652@NIES1652@NIES-808@NIES808@NIES-1673@NIES1673@NIES-1672@NIES1672@NIES-822@NIES822@NIES-826@NIES826@NIES-1653@NIES1653@NIES-1641@NIES1641@NIES-814@NIES814@NIES-812@NIES812@NIES-810@NIES810@NIES-811@NIES811@NIES-1680@NIES1680@NIES-825@NIES825@NIES-820@NIES820@NIES-813@NIES813@NIES-1639@NIES1639@NIES-1677@NIES1677
1585@Watanabe, M.@Studies on planktonic blue-green algae 8. Anabaena species with twisted trichomes in Japan.@Bull. Natn. Sci. Mus., Tokyo, Ser. B,@24(1),@1-13.@1998@@Anabaena; plankton; blue-green algae; Cyanophyta; taxonomy@NIES-1652@NIES1652
1586@Li, R., Watanabe, M., Watanabe, M. M.@Taxonomic studies of planktic species of Anabaena based on morphological characteristics in cultured strains.@Hydrobiologia,@438,@117-138.@2000@@Anabaena; cyanobacteria; identification; morphology; planktic; taxonomy@NIES-77@NIES77@NIES-79@NIES79@NIES-74@NIES74@NIES-1695@NIES1695@NIES-1652@NIES1652@NIES-1673@NIES1673@NIES-1672@NIES1672@NIES-1667@NIES1667@NIES-1653@NIES1653@NIES-78@NIES78@NIES-263@NIES263@NIES-40@NIES40@NIES-80@NIES80@NIES-73@NIES73@NIES-76@NIES76@NIES-1677@NIES1677
1587@Watanabe, M., Niiyama, Y., Tuji, A.@Studies on planktonic blue-green algae 10. Classification of planktonic Anabaena with coiled trichomes maintained in the National Science Mueum, Tokyo.@Bull. Natn. Sci. Mus., Tokyo, Ser. B,@30(4),@135-149.@2004@@morphology; taxonomy; planktonic; Anabaena; strains; culture; blue-green algae; Japan@NIES-1645@NIES1645@NIES-1656@NIES1656@NIES-1659@NIES1659@NIES-1662@NIES1662@NIES-1663@NIES1663@NIES-1690@NIES1690@NIES-1693@NIES1693@NIES-1695@NIES1695@NIES-1696@NIES1696@NIES-1647@NIES1647@NIES-1650@NIES1650@NIES-1684@NIES1684@NIES-1679@NIES1679@NIES-1677@NIES1677
1588@Crosbie, N. D., Pöckl, M., Weisse, T.@Rapid establishment of clonal isolates of freshwater autotrophic picoplankton by single-cell and single-colony sorting.@J. Microbiol. Methods,@55,@361-370.@2003@@cell culture; eukaryotic autotrophic picoplankton; flow cytometry; phycocyanin; phycoerythrin; Synechococcus@NIES-1348@NIES1348@NIES-1341@NIES1341@NIES-1342@NIES1342@NIES-1343@NIES1343@NIES-1344@NIES1344@NIES-1345@NIES1345@NIES-1346@NIES1346@NIES-1347@NIES1347
1589@Crosbie, N. D., Pöckl, M., Weisse, T.@Dispersal and phylogenetic diversity of nonmarine picocyanobacteria, inferred from 16S rRNA gene and cpcBA-intergenic spacer sequence analyses.@Appl. Environ. Microbiol.,@69,@5716-5721.@2003@@@NIES-1348@NIES1348@NIES-1341@NIES1341@NIES-1342@NIES1342@NIES-1343@NIES1343@NIES-1344@NIES1344@NIES-1345@NIES1345@NIES-1346@NIES1346@NIES-1347@NIES1347
1590@Iwataki, M., Hansen, G., Sawaguchi, T., Hiroishi, S., Fukuyo, Y.@Investigations of body scales in twelve Heterocapsa species (Peridiniales, Dinophyceae), including a new species H. pseudotriquetra sp. nov.@Phycologia,@43,@394-403.@2004@@@NIES-420@NIES420@NIES-473@NIES473@NIES-472@NIES472
1591@Hosoya, R., Hamana, K., Isobe, M., Yokota, A.@Polyamine distribution profiles within Cyanobacteria.@Microbiol. Cult. Coll.,@21,@3-8.@2005@@cyanobacteria; homospermidine; polyamine; spermidine@NIES-45@NIES45@NIES-79@NIES79@NIES-512@NIES512@NIES-846@NIES846@NIES-204@NIES204@NIES-78@NIES78@NIES-81@NIES81@NIES-592@NIES592@NIES-593@NIES593@NIES-610@NIES610@NIES-847@NIES847@NIES-2096@NIES2096@NIES-843@NIES843@NIES-2118@NIES2118@NIES-2123@NIES2123@NIES-34@NIES34@NIES-2125@NIES2125@NIES-2126@NIES2126@NIES-2128@NIES2128@NIES-510@NIES510@NIES-3276@NIES3276@NIES-2129@NIES2129@NIES-2132@NIES2132@NIES-3259@NIES3259@NIES-2102@NIES2102@NIES-2131@NIES2131@NIES-44@NIES44@NIES-80@NIES80@NIES-208@NIES208@NIES-37@NIES37@NIES-73@NIES73@NIES-2107@NIES2107@NIES-3275@NIES3275@NIES-2100@NIES2100@NIES-2098@NIES2098@NIES-22@NIES22@NIES-50@NIES50@NIES-21@NIES21@NIES-19@NIES19@NIES-515@NIES515@NIES-2124@NIES2124@NIES-30@NIES30@NIES-41@NIES41@NIES-3277@NIES3277@NIES-2093@NIES2093@NIES-2119@NIES2119@NIES-2108@NIES2108@NIES-28@NIES28
1592@Ciniglia, C., Cascone, C., Giudice, R. L., Pinto, G., Pollio, A.@Application of methods for assessing the geno- and cytotoxicity of Triclosan to C. ehrenbergii.@J. Hazard. Mater., @122,@227-232.@2005@@Closterium ehrenbergii; Triclosan; sexual reproduction; vegetative reproduction; comet assay@NIES-228@NIES228@NIES-229@NIES229
1593@Turmel, M., Ehara, M., Otis, C., Lemieux, C.@Phylogenetic relationships among streptophytes as inferred from chloroplast small and large subunit rRNA gene sequences.@J. Phycol.,@38,@364-375.@2002a@@Charophyceae; chloroplast rRNA genes; introns; land plants; phylogeny; Streptophyta@NIES-484@NIES484@NIES-296@NIES296
1594@Yoshii, Y., Takaichi, S., Maoka, T., Inouye, I.@Photosynthetic pigment composition in the primitive green alga Mesostigma viride (Prasinophyceae): phylogenetic and evolutionary implications.@J. Phycol.,@39,@570-576.@2003@@abscisic acid; carotenoid; Mesostigma; neoxanthin; siphonaxanthin; siphonaxanthin ester@NIES-475@NIES475@NIES-296@NIES296@NIES-476@NIES476@NIES-477@NIES477
1595@Chonudomkul, D., Yongmanitchai, W., Theeragool, G., Kawachi, M., Kasai, F., Kaya, K., Watanabe, M. M.@Morphology, genetic diversity, temperature tolerance and toxicity of Cylindrospermopsis raciborskii (Nostocales, Cyanobacteria) strains from Thailand and Japan.@FEMS Microbiol. Ecol.,@48,@345-355.@2004@@toxic cyanobacteria; Cylindrospermopsis raciborskii; STRR sequences; Thailand; Japan; low-temperature adapted group; genotypic clusters@NIES-991@NIES991@NIES-992@NIES992@NIES-993@NIES993@NIES-1040@NIES1040@NIES-1041@NIES1041@NIES-3085@NIES3085@NIES-3086@NIES3086@NIES-3087@NIES3087@NIES-3088@NIES3088@NIES-3089@NIES3089@NIES-3091@NIES3091@NIES-3092@NIES3092@NIES-3093@NIES3093@NIES-3094@NIES3094@NIES-3095@NIES3095@NIES-3096@NIES3096@NIES-3097@NIES3097@NIES-3098@NIES3098@NIES-3099@NIES3099@NIES-3100@NIES3100@NIES-3101@NIES3101@NIES-3102@NIES3102@NIES-3103@NIES3103
1596@Okamoto, N. & Inouye, I.@The katablepharids are a distant sister group of the Cryptophyta: a proposal for Katablepharidophyta divisio nova/Kathablepharida phylum novum based on SSU rDNA and beta-tubulin phylogeny.@Protist,@156,@163-179.@2005@@beta-tubulin; Cryptophyta; Katablepharidophyta/Kathablepharida; Katablepharis/Kathablepharis japonica; Leucocrypta; Leucocryptos marina; phylogeny; SSU rDNA@NIES-1335@NIES1335@NIES-1333@NIES1333@NIES-1334@NIES1334
1597@Nowack, E. C. M., Podola, B., Melkonian, M.@The 96-well twin-layer system: a novel approach in the cultivation of microalgae.@Protist,@156,@239-251.@2005@@cultivation; culture collections; cell immobilisation; microalgae; microtiter plates; filter plates@NIES-485@NIES485@NIES-483@NIES483@NIES-255@NIES255
1598@Feinstein, T. N., Traslavina, R., Sun, M.-Y., Lin, S.@Effects of light on photosynthesis, grazing, and population dynamics of the heterotrophic dinoflagellate Pfiesteria piscicida (Dinophyceae).@J. Phycol.,@38,@659-669.@2002@@cannibalism; grazing; growth; kleptoplastidy; light; Pfiesteria piscicida@NIES-1730@NIES1730
1599@Danbara, A. & Shiraiwa, Y.@The requirement of selenium for the growth of marine coccolithophorids, Emiliania huxleyi, Gephyrocapsa oceanica and Helladosphaera sp. (Prymnesiophyceae).@Plant Cell Physiol,@40,@762-766.@1999@@artificial seawater; coccolithophorids; Emiliania huxleyi; Gephyrocapsa oceanica; Helladosphaera; selenium-depletion; selenium-requirement@NIES-838@NIES838@NIES-837@NIES837
1600@Iwamoto, K. & Shiraiwa, Y.@Characterization of NADH nitrate reductase from the coccolithophorid Emiliania huxleyi (Lohman) Hay & Mohler (Haptophyceae).@Mar. Biotechnol.,@5,@20-26.@2003@@coccolithophorid; Emiliania huxleyi; enzyme purification; nitrate reductase; nitrate utilization@NIES-837@NIES837
1601@Obata, T., Araie, H., Shiraiwa, Y.@Bioconcentration mechanism of selenium by a coccolithophorid, Emiliania huxleyi.@Plant Cell Physiol.,@45,@1434-1441.@2004@@coccolithophorid; Emiliania huxleyi; selenite uptake; selenium accumulation@NIES-837@NIES837
1602@Obata, T., Sera, K., Futatsugawa, S., Shiraiwa, Y.@Multi-element analysis of marine microalgae using particle-induced X-ray emission.@Mar. Biotechnol.,@6,@66-70.@2004@@coccolithophorid; element concentration; elemental composition; Emiliania huxleyi; multi-element analysis; particle-induced X-ray emmision@NIES-837@NIES837
1603@Obata, T. & Shiraiwa, Y.@A novel eukaryotic selenoprotein in the haptophyte alga Emiliania huxleyi.@J. Biol. Chem.,@280,@18462-18468.@2005@@@NIES-837@NIES837
1604@Sawada, K. & Shiraiwa, Y.@Alkenone and alkenoic acid compositions of the membrane fractions of Emiliania huxleyi.@Phytochemistry,@65,@1299-1307.@2004@@coccolithophorid; Emiliania huxleyi; Haptophyceae; alkenones; alkenoic acids; lipid biomarker; membrane fractionation; intracellular localization; unsaturation index@NIES-837@NIES837
1605@Shiraiwa, Y.@Physiological regulation of carbon fixation in the photosynthesis and calcification of coccolithophorids.@Comp. Biochem. Physiol. B-Biochem. Mol. Biol.,@136,@775-783.@2003@@carbon dioxide fixation; calcification; calcium carbonate crystal; cell growth; coccolith; coccolithophorids; Emiliania huxleyi; photosynthesis; nutrient-depletion effect; Warburg effect@NIES-837@NIES837
1606@Shiraiwa, Y., Danbara, A., Kanke, Y.@Characterization of highly oxygen-sensitive photosynthesis in coccolithophorids.@Jpn. J. Phycol. (Sôrui),@52, Suppl.,@87-94.@2004@@CO2 fixation; coccolithophorids; Emiliania huxleyi; glycolate pathway; O2 effect; O2 inhibition; photorespiratory nitrogen cycle; Warburg effect@NIES-838@NIES838@NIES-837@NIES837
1607@Shiraiwa, Y., Hatano-Sugimoto, Y., Satoh, M.@Regulation of intracellular calcification and algal growth by nutrient supply in coccolithophorids.@In Biomineralization (BIOM2001): formation, diversity, evolution and application, Proceedings of th 8th International Symposium on Biomineralization, Eds. by Kobayashi & Ozawa,@@pp. 241-246.@2003@@algal bloom; calcification; coccolithophorid; Emiliania huxleyi; Gephyrocapsa oceanica; nitrate; phosphate; nutrient-depletion@NIES-838@NIES838@NIES-837@NIES837
1608@Nakada, T., Nakazawa, A., Nozaki, H.@Two species of Chlorogonium (Volvocales, Chlorophyceae) from Japan.@J. Jpn. Bot.,@80,@197-207.@2005@@Chlorogonium; Chlorophyceae; culture strain; distribution; taxonomy@NIES-1358@NIES1358@NIES-1360@NIES1360@NIES-1359@NIES1359@NIES-1357@NIES1357
1609@Tezuka, M., Satou, Y., Nakamura, M.@The effect of phosphorus in the fine-grained soil on the eutrophication of closed water area.@J. JSCE [Doboku-kôgaku Ronbunshû],@804 (VII-37),@113-123 (in Japanese with English summary).@2005@@eutrophication; fine-grained soil; phosphorus@NIES-44@NIES44
1610@Alamsjah, M. A., Hirao, S., Ishibashi, F., Fujita , Y.@Isolation and structure determination of algicidal compounds from Ulva fasciata.@Biosci. Biotechnol. Biochem.,@69,@2186-2192.@2005@@algicidal compounds; Ulva fasciata; hexadeca-4,7,10,13-tetraenoic acid; octadeca-6,9,12,15-tetraenoic acid; α-linolenic acid@NIES-462@NIES462@NIES-15@NIES15
1611@Houdai, T., Matsuoka, S., Morsy, N., Matsumori, N., Satake, M., Murata, M.@Hairpin conformation of amphidinols possibly accounting for potent membrane permeabilizing activities.@Tetrahedron,@61,@2795-2802.@2005@@amphidinol membrane-permeabilizaion@NIES-613@NIES613
1612@Morsy, N., Matsuoka, S., Houdai, T., Matsumori, N., Adachi, S., Murata, M., Iwashita, T., Fujita, T.@Isolation and structure elucidation of a new amphidinol with a truncated polyhydroxyl chain from Amphidinium klebsii.@Tetrahedron,@61,@8606-8610.@2005@@amphidinol; Amphidinium; AM7; AM3; CID MS/MS@NIES-613@NIES613
1613@Kato, S., Higuchi, S., Kondo, Y., Kitano, S., Nozaki, H., Tanaka, J.@Rediscovery of the wild-extinct species Nitellopsis obtusa (Charales) in Lake Kawaguchi, Japan.@J. Jpn. Bot.,@80,@84-91.@2005@@Charales; Nitellopsis; rbcL gene; rediscovery; wild-extinct species@NIES-1638@NIES1638
1614@Katsuda, T., Lababpour, A., Shimahara, K., Katoh, S.@Astaxanthin production by Haematococcus pluvialis under illumination with LEDs.@Enzyme Microb. Technol., @35,@81-86.@2004@@astaxanthin; light emitting diode; wavelength; accumulation of astaxanthin@NIES-144@NIES144
1615@Lababpour, A., Hada, K., Shimahara, K., Katsuda, T., Katoh, S.@Effects of nutrient supply methods and illumination with blue light emitting diodes (LEDs) on astaxanthin production by Haematococcus pluvialis.@J. Biosci. Bioeng.,@98,@452-456.@2004@@astaxanthin; Haematococcus pluvialis; blue light emitting diode (LED); nutrient supply@NIES-144@NIES144
1616@Lababpour, A., Shimahara, K., Hada, K., Kyoui, Y., Katsuda, T., Katoh, S.@Fed-batch culture under illumination with blue light emitting diodes (LEDs) for astaxanthin production by Haematococcus pluvialis.@J. Biosci. Bioeng.,@100,@339-342.@2005@@astaxanthin; Haematococcus pluvialis; fed-batch culture; blue light emitting diode (LED)@NIES-144@NIES144
1617@Nagai, T., Imai, A., Matsushige, K., Fukushima, T.@Limiting nutrients on the growth of bloom-forming cyanobacteria with special focus on iron speciation.@Verh. Internat. Verein. Limnol.,@29,@949-952.@2005@@limiting nutrient; algal growth potential test; speciation; iron@NIES-204@NIES204@NIES-44@NIES44
1618@Nagase, H., Hirooka, T., Ehara, Y., Yamashita, R, Tanimoto, S., Hirata, K., Miyamoto, K.@NO_x removal system for exhaust gas using freshwater microalgae.@J. Environ. Biotechnol.,@5,@37-41 (in Japanese with English summary).@2005@@microalgae; nitrogen oxides; treatment of exhaust gas; NO sensor; reactor@NIES-23@NIES23
1619@Nagase, H., Inthorn, D., Oda, A., Nishimura, J., Kajiwara, Y., Park, M.-O., Hirata, K., Miyamoto, K.@Improvement of selective removal of heavy metals in cyanobacteria by NaOH treatment.@J. Biosci. Bioeng.,@99,@372-377.@2005@@cyanobacteria; cadmium; zinc; copper; lead; hard water@NIES-44@NIES44@NIES-23@NIES23
1620@Nakai, S., Yamada, S., Hosomi, M.@Cyanobacterial growth inhibition effects of fatty acids released from Myriophyllum spicatum.@J. Jpn. Soc. Water Environ.,@27,@125-130 (in Japanese with English summary).@2004@@allelochemical; Microcystis aeruginosa; Myriophyllum spicatum; fatty acid; synergistic growth inhibition@NIES-87@NIES87
1621@Nakai, S., Yamada, S., Hosomi, M.@Anti-cyanobacterial fatty acids released from Myriophyllum spicatum.@Hydrobiologia,@543,@71-78.@2005@@allelochemical; fatty acid; Microcystis aeruginosa; Myriophyllum spicatum@NIES-87@NIES87
1622@Zhou, S., Nakai, S., Hosomi, M., Sezaki, Y., Tominaga, M.@Inhibition of cyanobacterial growth by allelopathy of reed.@Jpn. J. Water Treat. Biol.,@40,@23-28 (in Japanese with English summary).@2004@@reed; Phormidium tenue; cyanobacteria; inhibition; allelopathy@NIES-512@NIES512
1623@Nakazawa, A. & Nozaki, H.@Phylogenetic analysis of the Tetrasporalean genus Asterococcus (Chlorophyceae) based on 18S ribosomal RNA gene sequences.@J. Jpn. Bot.,@79,@255-261.@2004@@18S rRNA gene; Asterococcus; Palmellopsidaceae; phylogeny; Tetrasporales@NIES-656@NIES656@NIES-257@NIES257
1624@Nozaki, H., Matsuzaki, M., Misumi, O., Kuroiwa, H., Higashiyama, T., Kuroiwa, T.@Phylogenetic implications of the CAD complex from the primitive red alga Cyanidioschyzon merolae (Cyanidiales, Rhodophyta).@J. Phycol.,@41,@652-657.@2005@@CAD complex; evolution; phylogeny; red algae; pyrimidine biosynthetic cluster@NIES-3377@NIES3377@NIES-1332@NIES1332
1625@Ohmura, Y., Kawachi, M., Kasai, F., Watanabe, M. M., Takeshita, S.@Genetic combinations of symbionts in a vegetatively reproducing lichen, Parmotrema tinctorum, based on its rDNA sequences.@Bryologist,@109,@43-59.@2006@@diversity; ITS rDNA; mycobiont; Parmotrema tinctorum; photobiont; selectivety; Trebouxia corticola; vegetative reproduction. @NIES-1447@NIES1447@NIES-1448@NIES1448@NIES-1449@NIES1449@NIES-1451@NIES1451@NIES-1455@NIES1455@NIES-1446@NIES1446@NIES-1450@NIES1450@NIES-1452@NIES1452@NIES-1453@NIES1453@NIES-1454@NIES1454
1626@Sakai, H., Ogawa, K., Katayama, H., Ohgaki, S.@Low- or medium-pressure UV lamp inactivation of Microcystis aeruginosa.@J. Water Environ. Technol.,@3,@55-61.@2005@@Microcystis aeruginosa; low-pressure (LP) UV lamp; medium-pressure (MP) UV lamp; endonuclease sensitive site (ESS) assay; photoreactivation@NIES-98@NIES98
1627@Sakai, H., Ogawa, K., Katayama, H., Ohgaki, S.@Growth inhibition of Anabaena variabilis by low- or medium-pressure UV lamp irradiation.@Environ. Eng. Res.,@42,@495-501 (in Japanese with English summary).@2005@@growth inhibition; Anabaena variabilis; UV irradiation; model calculation@NIES-23@NIES23
1628@Sato, M., Nishikawa, T., Yamazaki, T., Kawano, S.@Isolation of the plastid FtsZ gene from Cyanophora paradoxa (Glaucocystophyceae, Glaucocystophyta).@Phycol. Res.,@53,@93-96.@2005@@cyanelle; Cyanophora paradoxa; FtsZ; Glaucocystophyta; plastid division@NIES-547@NIES547
1629@Suda, S., Nozaki, H., Watanabe, M. M.@Morphology and sexual reproduction of Carteria palmata sp. nov. belonging to the Carteria group I sensu Lembi (Chlorophyceae, Volvocales).@Phycologia,@44,@596-607.@2005@@@NIES-1337@NIES1337@NIES-1338@NIES1338@NIES-1336@NIES1336
1630@Sun, B.-K., Tanji, Y., Unno, H.@Influences of iron and humic acid on the growth of the cyanobacterium Anabaena circinalis.@Biochem. Eng. J.,@24,@195-201.@2005@@cyanobacteria; Anabaena circinalis; iron limitation; humic acid@NIES-41@NIES41
1631@Sun, B.-K., Tanji, Y., Unno, H.@Extinction of cells of cyanobacterium Anabaena circinalis in the presence of humic acid under illumination.@Appl. Microbiol. Biotechnol.,@72,@823-828.@2006@@@NIES-41@NIES41
1632@Takei, T., Odake, H., Miura, K., Takagi, Y.@Ecotoxicity of tetradecanoic acid, 2-sulfo-, 1-metylester, sodium salt (C14MES).@J. Oleo Sci.,@55,@121-126.@2006@@MES; ecotoxicity; alga; daphnia; reproduction@NIES-35@NIES35
1633@Tsuchikane, Y., Fujii, T., Ito, M., Sekimoto, H.@A sex pheromone, protoplast release-inducing protein (PR-IP) inducer, induces sexual cell division and production of PR-IP in Closterium.@Plant Cell Physiol.,@46,@1472-1476.@2005@@Closterium; conjugation; pheromone; sexual cell division; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
1634@Tsuda, K., Takamura, N., Matsuyama, M., Fujii, Y.@Assessment method for leaf litters allelopathic effect on cyanobacteria.@J. Aquat. Plant Manage,@43,@43-46.@2005@@allelopathy; bioassay; leaf disk; Microcystis aeruginosa@NIES-88@NIES88
1635@Yasumoto, K., Nishigami, A., Kasai, F., Kusumi, T., Ooi, T.@Isolation and absolute configuration determination of aliphatic sulfates as the Daphnia kairomones inducing morphological defense of a phytoplankton.@Chem. Pharm. Bull.,@54,@271-274.@2006@@Daphnia kairomone; Scenedesmus; aliphatic sulfate; absolute configulation@NIES-802@NIES802
1636@Yasumoto, K., Nishigami, A., Yasumoto, M., Kasai, F., Okada, Y., Kusumi, T., Ooi, T.@Aliphatic sulfates released from Daphnia induce morphologiral defense of phytoplankton: isolation and synthesis of kairomones.@Tetrahedron Letters ,@46,@4765-4767.@2005@@kairomonda; phytoplankton; Daphnia; Scenedesmus; aliphatic sulfate@NIES-802@NIES802
1637@Yoshii, Y., Takaichi, S., Maoka, T., Suda, S., Sekiguchi, H., Nakayama, T., Inouye, I.@Variation of siphonaxanthin series among the genus Nephroselmis (Prasinophyceae, Chlorophyta), including a novel primary methoxy carotenoid.@J. Phycol.,@41,@827-834.@2005@@carotenoids; methylation; Nephroselmis; photosynthetic antenna system; Prasinophyceae; siphonaxanthin series@NIES-934@NIES934@NIES-2309@NIES2309@NIES-252@NIES252@NIES-935@NIES935@NIES-483@NIES483@NIES-486@NIES486
1638@Yoshikawa, S., Suzuki, T., Watanabe, M., Iseki, M.@Kinetic analysis of the activation of photoactivated adenylyl cyclase (PAC), a blue-light receptor for photomovements of Euglena.@Photochem. Photobiol. Sci.,@4,@727-731.@2005@@@NIES-48@NIES48
1639@Nedelcu, A. M., Borza, T., Lee, R. W.@A land-plant specific multigene family in the unicellular Mesostigma argues for its close relationship to Streptophyta.@Mol. Biol. Evol.,@23,@1011-1015.@2006@@Mesostigma viride; land plant evolution; Streptophyta; histogenetic meristem; gene family@NIES-296@NIES296
1640@Steinbrenner, J. & Linden, H.@Light induction of carotenoid biosynthesis genes in the green alga Haematococcus pluvialis: regulation by photosynthetic redox control.@Plant Mol. Biol.,@52,@343-356.@2003@@astaxanthin; carotenoid biosynthesis; green algae; Haematococcus pluvialis; lycopene βcyclase; redox regulation@NIES-144@NIES144
1641@Nakada, T., Suda, S., Nozaki, H.@A taxonomic study of Hafniomonas (Chlorophyceae) based on a comparative examination of cultured material.@J. Phycol.,@43,@397-411.@2007@@Chlorophyceae; Hafniomonas; morphology; new species; taxonomy@NIES-1714@NIES1714@NIES-656@NIES656@NIES-1715@NIES1715@NIES-1716@NIES1716@NIES-1717@NIES1717@NIES-1718@NIES1718@NIES-1720@NIES1720@NIES-257@NIES257
1642@Yamada, T., Nakada, T., Miyaji, K., Nozaki, H.@Morphology and molecular phylogeny of Gonium multicoccum (Volvocales, Chlorophyceae) newly found in Japan.@J. Jpn. Bot.,@81,@139-147.@2006@@Chlorophyceae; Gonium multicoccum; ITS2; rbcL; Volvocales@NIES-653@NIES653@NIES-857@NIES857@NIES-1038@NIES1038@NIES-1707@NIES1707@NIES-1708@NIES1708@NIES-1709@NIES1709@NIES-1711@NIES1711@NIES-1713@NIES1713@NIES-851@NIES851@NIES-569@NIES569@NIES-289@NIES289@NIES-654@NIES654@NIES-572@NIES572
1643@Meriluoto, J., Codd, G. A. (eds.)@TOXIC: cyanobacterial monitoring and cyanotoxin analysis.@Acta Acad. Aboensis, ser, B,@Vol. 65(1),@149 pp.@2005@@@NIES-107@NIES107
1644@Meriluoto, J., Karlsson, K., Spoof, L.@High-throughput screening of ten microcystins and nodularins, cyanobacterial peptide hepatotoxins, by reversed-phase liquid chromatography-electrospray ionization mass spectrometry.@Chromatographia,@59,@291-298.@2004@@columun liquid chromatography; mass spectrometry detection; microcystins and nodularins; cyanobacteria; toxins@NIES-107@NIES107
1645@Karlsson, K.@Liquid chromatotraphy - mass spectrometry in distribution and bioaccumulation studies of toxic cyanopeptides.@PhD thesis, Åbo Akademi University, Turku, Finland,@@62 pp.@2005@@@NIES-107@NIES107
1646@Spoof, L.@High-performance liquid chromatography of microcystins and nodularins, cyanobacterial peptide toxins.@PhD thesis, Åbo Akademi University, Turku, Finland,@@73 pp.@2004@@@NIES-107@NIES107
1647@Fukao, T., Nishijima, T., Yamaguchi, H., Adachi, M.@Utilization of urea by the 6 species of red tide phytoplankton.@Bull. Plankton Soc. Japan, @54,@1-8 (in Japanese with English summary).@2007@@growth; red tide; phytoplankton; urea; uptake kinetics@NIES-324@NIES324@NIES-237@NIES237@NIES-605@NIES605@NIES-323@NIES323@NIES-1@NIES1@NIES-6@NIES6
1648@Hamana, K. & Niitsu, M.@Cellular polyamines of lower eukaryotes belonging to the phyla Glaucophyta, Rhodophyta, Cryptophyta, Haptophyta and Percolozoa.@J. Gen. Appl. Microbiol.,@52,@235-240.@2006@@Cryptophyta; Glaucophyta; Haptophyta; Perclozoa; polyamine; Rhodophyta@NIES-282@NIES282@NIES-1032@NIES1032@NIES-1036@NIES1036@NIES-741@NIES741@NIES-1016@NIES1016@NIES-1017@NIES1017@NIES-1456@NIES1456@NIES-1457@NIES1457@NIES-1462@NIES1462@NIES-1463@NIES1463@NIES-1467@NIES1467@NIES-1473@NIES1473@NIES-277@NIES277@NIES-388@NIES388@NIES-715@NIES715@NIES-1441@NIES1441@NIES-699@NIES699@NIES-3377@NIES3377@NIES-8@NIES8@NIES-764@NIES764@NIES-353@NIES353@NIES-276@NIES276@NIES-763@NIES763@NIES-1332@NIES1332@NIES-706@NIES706@NIES-274@NIES274
1649@Honjo, M., Matsui, K., Ueki, M., Nakamura, R., Fuhrman, J. A., Kawabata, Z.@Diversity of virus-like agents killing Microcystis aeruginosa in a hyper-eutrophic pond.@J. Plankton Res.,@28,@407-412.@2006@@@NIES-298@NIES298
1650@Jang, M.-H., Ha, K., Jung, J.-M., Lee, Y.-J., Takamura, N.@Increased microcystin production of Microcystis aeruginosa by indirect exposure of nontoxic cyanobacteria: potential role in the development Microcystis bloom.@Bull. Environ. Contam. Toxicol.,@76,@957-962.@2006@@@NIES-74@NIES74@NIES-204@NIES204@NIES-88@NIES88
1651@Kamikawa, R., Asai, J., Miyahara, T., Murata, K., Oyama, K., Yoshimatsu, S., Yoshida, T., Sako, Y.@Application of a real-time PCR assay to a comprehensive method of monitoring harmful algae.@Mircobes Environ.,@21,@163-173.@2006@@harmful algal bloom (HAB); molecular monitoring; real-time PCR; red tide@NIES-121@NIES121@NIES-603@NIES603@NIES-7@NIES7
1652@Kitamura, N., Nakagawa, T., Yoshida, Y., Matsushima, H., Asada, Y.@Studies on the growth control of toxic cyanobacteria by use of the water-extracts from the dead leaves of deciduous trees.@Environ. Eng. Res. [Kankyô-kôgaku Kenkyû Ronbunshû],@43,@543-549.@2006@@growth control; Microcystis aeruginosa; dead-leaves; deciduous trees; condensed tannin@NIES-102@NIES102
1653@Nagasoe, S., Toda, S., Shimasaki, Y., Osima, Y., Uchida, T., Honjo, T.@Growth inhibition of Gyrodinium instriatum (Dinophyceae) by Skeletonema costatum (Bacillariophyceae).@Afr. J. Mar. Sci.,@28,@325-329.@2006@@allelopathy; Gyrodinium instriatum; Skeletonema costatum; species interaction@NIES-324@NIES324
1654@Yamashita, N., Yasojima, M., Nakada, N., Miyajima, K., Komori, K., Suzuki, Y., Tanaka, H.@Effects of antibacterial agents, levofloxacin and clarithromycin, on aquatic organisms.@Water Sci. Technol.,@53,@65-72.@2006@@antibacterial agent; clarithromycin; ecotoxicity; levofloxacin; risk@NIES-35@NIES35
1655@Yoshida, M., Yoshida, T., Takashima, Y., Hosoda, N., Hiroishi, S.@Dynamics of microcystin-producing and non-producing Microcystis populations is correlated with nitrate concentration in a Japanese lake.@FEMS Microbiol. Lett.,@266,@49-53.@2007@@microcystin; Microcystis; peptide synthetase; population dynamics; real-time PCR; toxic cyanobacteria@NIES-298@NIES298
1656@Nozaki, H., Iseki, M., Hasegawa, M., Misawa, K., Nakada, T., Sasaki, N., Watanabe, M.@Phylogeny of primary photosynthetic eukaryotes as deduced from slowly evolving nuclear genes.@Mol. Biol. Evol.,@24,@1592-1595.@2007@@eukaryote evolution; long branch attraction; phylogeny; plastid endosymbiosis; primary photosynthetic eukaryotes; taxon sampling@NIES-547@NIES547
1657@Nakayama, T., Yoshida, M., Noël, M.-H., Kawachi, M., Inouye, I.@Ultrastructure and phylogenetic position of Chrysoculter rhomboideus gen. et sp.nov. (Prymnesiophyceae), a new flagellate haptophyte from Japanese coastal waters.@Phycologia,@44,@369-383.@2005@@@NIES-1874@NIES1874
1658@Yubuki, N., Inagaki, Y., Nakayama, T., Inouye, I.@Ultrastructure and ribosomal RNA phylogeny of the free-living heterotrophic flagellate Dysnectes brevis n.gen., n.sp., a new member of the Fornicata.@J. Eucaryot. Microbiol.,@54,@191-200.@2007@@amitochondriate; Carpediemonas membranifera; diplomonads; Excavata; microaerophilic; retortamonads; typical excavates@NIES-1843@NIES1843
1659@Yoshida, T., Maki, M., Okamoto, H., Hiroishi, S.@Coordination of DNA replication and cell division in cyanobacteria Microcystis aeruginosa.@FEMS Microbiol. Lett.,@251,@149-154.@2005@@cyanobacteria; cell division; DNA replication; FtsZ; Microcystis@NIES-298@NIES298
1660@Bowers, H. A., Tomas, C., Tengs, T., Kempton, J. W., Lewitus, A. J., Oldach, D. W.@Raphidophyceae [Chadefaud ex Silva] systematics and rapid identification: sequence analyses and real-time PCR assays.@J. Phycol.,@42,@1333-1348.@2006@@Chattonella; Fibrocapsa; Heterosigma; PCR; Raphidophyceae; Taqman@NIES-670@NIES670
1661@Kim, E., Simpson, A. G., Graham, L. E.@Evolutionary relationships of apusomonads inferred from taxon-rich analyses of nuclear encoded genes.@Mol. Biol. Evol.,@23,@2455-2466.@2006@@Apusomonas; Apusomonadidae; Opisthokonta; Amoebozoa; protists; evolution@NIES-936@NIES936@NIES-1335@NIES1335@NIES-1333@NIES1333@NIES-955@NIES955
1662@Kim, E., Wilcox, L. W., Fawley, M. W., Graham, L. E.@Phylogenetic position of the green flagellate Mesostigma viride based on alpha-tubulin and beta-tubulin gene sequences.@Int. J. Plant Sci.,@167,@873-883.@2006@@Mesostigma; Coleochaete; Pterosperma; Nephroselmis; Mantoniella; Streptophyta; Viridiplantae; α-tubulin; β-tubulin@NIES-955@NIES955
1663@Nozaki, H., Ott, F. D., Coleman, A. W.@Morphology, molecular phylogeny and taxonomy of two new species of Pleodorina (Volvocaceae, Chlorophyceae).@J. Phycol.,@42,@1072-1080.@2006@@colonial Volvocales; molecular phylogeny; morphology; Pleodorina starrii sp. nov.; Pleodorina thompsonii sp. nov.; taxonomy@NIES-891@NIES891@NIES-1363@NIES1363@NIES-456@NIES456@NIES-460@NIES460@NIES-541@NIES541@NIES-544@NIES544@NIES-666@NIES666@NIES-720@NIES720@NIES-721@NIES721@NIES-722@NIES722@NIES-724@NIES724@NIES-725@NIES725@NIES-730@NIES730@NIES-731@NIES731@NIES-732@NIES732@NIES-735@NIES735@NIES-736@NIES736@NIES-863@NIES863@NIES-865@NIES865@NIES-866@NIES866@NIES-867@NIES867@NIES-868@NIES868@NIES-869@NIES869@NIES-872@NIES872@NIES-892@NIES892@NIES-1362@NIES1362@NIES-4126@NIES4126@NIES-4127@NIES4127@NIES-577@NIES577@NIES-728@NIES728@NIES-734@NIES734
1664@Pombert, J. F., Beauchamp, P., Otis, C., Lemieux, C., Turmel, M.@The complete mitochondrial DNA sequence of the green alga Oltmannsiellopsis viridis: evolutionary trends of the mitochondrial genome in the Ulvophyceae.@Curr. Genet.,@50,@137-147.@2006a@@green algae; mitochondrial genome evolution; horizontal DNA transfers; introns; repeated sequences@NIES-360@NIES360
1665@Demura, M., Kawachi, M., Kunugi, M., Nishizawa, T., Kasai, F., Watanabe, M. M.@Development of microsatellite markers for the red tide-forming harmful species Chattonella antiqua, C. marina, and C. ovata (Raphidophyceae).@Mol. Ecol. Notes,@7,@315-317.@2007@@Chattonella; harmful algal bloom; microsatellite; phytoplankton; Raphidophyceae; red tide@NIES-2@NIES2
1666@Grauvogel, C. & Petersen, J.@Isoprenoid biosynthesis authenticates the classification of the green alga Mesostigma viride as an ancient streptophyte.@Gene,@396(1),@125-133.@2007@@evolution; primer design; cytosolic MVA pathway; plastid MEP pathway; Chlorophyta; Plantae; Cyanophora paradoxa@NIES-476@NIES476
1667@Hosoi-Tanabe, S., Honda, D., Fukaya, S., Otake, I., Inagaki, Y., Sako, Y.@Proposal of Pseudochattonella verruculosa gen. nov., comb. nov. (Dictyochophyceae) for a formar rephidophycean alga Chattonella verruculosa, based on 18S rDNA phylogeny and ultrastructural characteristics.@Phycol. Res., @55,@185-192.@2007@@Chatonella verruculosa; Dictyochophyceae; flagellar apparatus; harmful algal bloom; phylogenetic analysis; Pseudochattonella verruculosa; Raphidophyceae@NIES-670@NIES670
1668@Iida, K., Takishita, K., Ohshima, K., Inagaki, Y.@Assessing the monophyly of chlorophyll-c containing plastids by multi-gene phylogenies under the unlinked model conditions.@Mol. Phylogenet. Evol.,@45(1),@227-238.@2007@@chromist; chromalveolate; secondary endosymbiosis; model misspecification; separate model; concatenate model@NIES-548@NIES548@NIES-15@NIES15@NIES-1@NIES1@NIES-716@NIES716@NIES-670@NIES670
1669@Ki, J.-S. & Han, M.-S.@Nuclear rDNA and chloroplast rbcL, rbcS and IGS sequence data, and their implications from the Japanese, Korean, and North American harmful algae, Heterosigma akashiwo (Raphidophyceae).@Environ. Res.,@103,@299-304.@2007@@Heterosigma akashiwo; blooms; nuclear rDNA; rbcS; IGS@NIES-293@NIES293
1670@Ki, J.-S. & Han, M.-S.@Rapid molecular identification of the harmful freshwater dinoflagellate Peridinium in various life stages using genus-specific single-cell PCR.@J. Appl. Phycol.,@19,@467-470.@2007@@dinoflagellate cyst; planozygote; rDNA@NIES-495@NIES495
1671@Makiuchi, T., Nara, T., Annoura, T., Hashimoto, T., Aoki, T.@Occurrence of multiple, independent gene fusion events for the fifth and sixth enzymes of pyrimidine biosynthesis in different eukaryotic groups.@Gene,@394(1-2),@78-86.@2007@@gene fusion; de novo pyrimidine biosynthesis; lateral gene transfer; evolutionary marker@NIES-48@NIES48
1672@Nakada, T. & Nozaki, H.@Re-evaluation of three Chlorogonium (Volvocales, Chlorophyceae) species based on 18S ribosomal RNA gene phylogeny.@Eur. J. Phycol.,@42,@177-182.@2007@@Chlorogonium; Chlorophyceae; culture strain; molecular phylogeny; monophyletic species; 18S rRNA; species taxonomy@NIES-692@NIES692@NIES-1358@NIES1358@NIES-1357@NIES1357
1673@Nakada, T. & Nozaki, H.@Two species of Chlamydomonas (Volvocales, Chlorophyceae) new to Japan.@J. Jpn. Bot.,@82,@179-189.@2007@@Chlamydomonas perpusilla; Chlamydomonas pumilio; culture strain; taxonomy@NIES-1848@NIES1848@NIES-1849@NIES1849@NIES-1850@NIES1850
1674@Nakasugi, K., Alexova, R., Svenson, C. J., Neilan, B. A.@Functional Analysis of PilT from the Toxic Cyanobacterium Microcystis aeruginosa PCC 7806.@J. Bacteriol.,@189,@1689-1697.@2007@@@NIES-102@NIES102
1675@Sasaki, G., Katoh, K., Hirose, N., Suga, H., Kuma, K., Miyata, T., Su, Z. H.@Multiple receptor-like kinase cDNAs from liverwort Marchantia polymorpha and two charophycean green algae, Closterium ehrenbergii and Nitella axillaris: Extensive gene duplications and gene shufflings in the early evolution of streptophytes.@Gene,@401(1-2),@135-144.@2007@@conjugate alga; stonewort; gene family; divergence; phylogenetic tree; molecular evolution@NIES-228@NIES228
1676@Wu, Z. X., Gan, N. Q., Song, L. R.@Genetic diversity: geographical distribution and toxin profiles of Microcystis strains (cyanobacteria) in China.@J. Integr. Plant Biol.,@49(3),@262-269.@2007@@diversity; geographical distribution; microcystin; Microcystis@NIES-98@NIES98@NIES-102@NIES102
1677@Lu, J. & Takeuchi, T.@Spawning and egg quality of the tilapia Oreochromis niloticus fed solely on raw Spirulina throughout three generations.@Aquaculture,@234,@625-640.@2004@@Closed ecological recirculating aquaculture system (CERAS); egg quality; larval quality; Oreochromis niloticus; parent; progeny; reproduction; spawn; Spirulina platensis@NIES-39@NIES39
1678@Aoki, S., Ohara, S., Kimura, K., Mizuguchi, H., Fuse, Y., Yamada, E.@Characterization of dissolved organic matter released from Microcystis aeruginosa.@Anal. Sci.,@24,@389-394.@2008@@@NIES-109@NIES109
1679@Niki, T., Shimizu, M., Fujishiro, A., Kinoshita, J.@Effects of salinity downshock on dimethylsulfide production.@J. Oceanogr.,@63,@873-877.@2007@@DMS; DMSP; DMSP lyase activity; salinity@NIES-7@NIES7
1680@Shiraiwa, Y. & Kayano, K.@Coccolith.@In Development of New Functional Materials Inspired by Biomineralization , Ed. By Kato, T., CMC Publications, Tokyo,@@pp. 52-63.@2007@@@NIES-837@NIES837
1681@Yasumoto, K., Nishigami, A., Aoi, H., Tsuchihashi, C., Kasai, F., Kusumi, T., Ooi, T.@Isolation and absolute configuration determination of aliphatic sulfates as the Daphnia kairomones inducing morphological defence of a phytoplankton - Part 2.@Chem. Pharm. Bull.,@56,@129-132.@2008@@Daphnia kairomone; Scenedesmus; aliphatic sulfate; absolute configuration@NIES-802@NIES802
1682@Yasumoto, K., Nishigami, A., Aoi, H., Tsuchihashi, C., Kasai, F., Kusumi, T., Ooi, T.@Isolation of new aliphatic sulfates and sulfamate as the Daphnia kairomones inducing morphological change of a phytoplankton Scenedesmus gutwinskii.@Chem. Pharm. Bull.,@56,@133-136.@2008@@Daphnia kairomone; Scenedesmus; aliphatic sulfate; aliphatic sulfamate@NIES-802@NIES802
1683@Yamamoto, H., Nakamura, Y., Nakamura, Y., Kitani, C., Imari, T., Sekizawa, J., Takao, Y., Yamashita, N., Hirai, N., Oda, S., Takarazako, N.@Initial ecological risk assessment of eight selected human pharmaceuticals in Japan.@Environ. Sci.,@14,@177-193.@2007@@pharmaceuticals; initial risk assessment; aquatic organisms; predicted no effect concentration@NIES-35@NIES35
1684@Jang, M.-H., Ha, K., Takamura, N.@Reciprocal allelopathic responses between toxic cyanobacteria (Microcystis aeruginosa) and duckweed (Lemna japonica).@Toxicon,@49,@727-733.@2007@@Microcystis aeruginosa Kützing; Lemna japonica Landolg; microcystin; allelochemicals; reciprocal allelopathic responses; growth; eutrophic waters@NIES-107@NIES107@NIES-103@NIES103
1685@Jang, M.-H., Jung, J.-M., Takamura, N.@Changes in microcystin production in cyanobacteria exposed to zooplankton at different population densities and infochemical concentrations.@Limnol. Oceanogr.,@52,@1454-1466.@2007@@@NIES-107@NIES107@NIES-88@NIES88@NIES-98@NIES98
1686@Jang, M.-H., Ha, K., Takamura, N.@Microcystin production by Microcystis aeruginosa exposed to different stages of herbivorous zooplankton.@Toxicon,@51,@882-889.@2008@@Microcystis aeruginosa; induced defense; different stages of zooplankton; infochemicals; intracellular microcystin; extracellular microcystin@NIES-107@NIES107@NIES-88@NIES88@NIES-98@NIES98@NIES-103@NIES103
1687@Ishibashi, Y., Oikawa, E., Honda, H., Adachi, T., Nakatochi, M.@Analyses of growth factors of taste and odor producing algae by a fuzzy neural network.@Environ. Eng. Res. [Kankyô-kôgaku Kenkyû Ronbunshû],@44,@255-263 (in Japanese with English summary).@2007@@musty odor; Phormidium tenue; Uroglena americana; fuzzy neural network; wind speed@NIES-512@NIES512
1688@Hamana, K.@Cellular polyamines of phototrophs and beterotrophs belonging to the lower eukaryotic phyla Cercozoa, Euglenozoa, Heterokonta and Metamonada.@J. Gen. Appl. Microbiol.,@54,@135-140.@2008@@cyanobacteria; homospermidine; polyamine; spermine; thermospermine@NIES-253@NIES253@NIES-330@NIES330@NIES-1011@NIES1011@NIES-1303@NIES1303@NIES-1440@NIES1440@NIES-1444@NIES1444@NIES-1003@NIES1003@NIES-1002@NIES1002@NIES-1443@NIES1443@NIES-548@NIES548@NIES-333@NIES333@NIES-15@NIES15@NIES-323@NIES323@NIES-86@NIES86@NIES-118@NIES118@NIES-603@NIES603@NIES-1380@NIES1380@NIES-1044@NIES1044@NIES-622@NIES622@NIES-71@NIES71@NIES-9@NIES9
1689@Hamana, K., Kobayashi, M., Yokota, A., Sekiguchi, H., Niitsu, M.@Cellular polyamine profiles in cyanobacteria.@Microbiol. Cult. Coll.,@24,@3-8.@2008@@cyanobacteria; homospermidine; polyamine; spermine; thermospermine@NIES-46@NIES46@NIES-208@NIES208@NIES-416@NIES416@NIES-598@NIES598@NIES-1031@NIES1031@NIES-2135@NIES2135@NIES-267@NIES267@NIES-932@NIES932@NIES-26@NIES26@NIES-36@NIES36@NIES-206@NIES206@NIES-230@NIES230@NIES-268@NIES268@NIES-305@NIES305@NIES-361@NIES361@NIES-433@NIES433@NIES-434@NIES434@NIES-481@NIES481@NIES-507@NIES507@NIES-597@NIES597@NIES-931@NIES931@NIES-2133@NIES2133@NIES-2115@NIES2115@NIES-33@NIES33
1690@Nakada, T., Nozaki, H., Pröschold, T.@Molecular phylogeny, ultrastructure, and taxonomic revision of Chlorogonium (Chlorophyta): emendation of Chlorogonium and description of Gungnir gen. nov. and Rusalka gen.nov.@J. Phycol.,@44,@751-760.@2008@@Chlorogonium; Gungnir gen.nov.; molecular phylogeny; morphology; Rusalka gen.nov.; taxonomy; ultrastructure; Volvocales@NIES-4125@NIES4125@NIES-439@NIES439@NIES-692@NIES692@NIES-751@NIES751@NIES-1360@NIES1360@NIES-1359@NIES1359@NIES-755@NIES755@NIES-1357@NIES1357@NIES-761@NIES761@NIES-1869@NIES1869@NIES-123@NIES123
1691@Nagai, T., Imai, A., Matsushige, K., Fukushima, T.@Effect of iron complexation with dissolved organic matter on the growth of cyanobacteria in a eutrophic lake.@Aquat. Microb. Ecol.,@44,@231-239.@2006@@dissolved organic matter; DOM; cyanobacteria; iron; organic complexation@NIES-204@NIES204@NIES-44@NIES44
1692@Nagai, T., Imai, A., Matsushige, K., Fukushima, T.@Growth characteristics and growth modeling of Microcystis aeruginosa and Planktothrix agardhii under iron limitation.@Limnology,@8,@261-270.@2007@@iron; growth rate; uptake rate; model simulation; cyanobacteria@NIES-204@NIES204@NIES-44@NIES44
1693@Suzuki, K., Miyachi, S., Tamiya, H.@Changes of the capacity of dark reduction of carbon dioxide during the normal growth cycle of Chlorella ellipsoidea.@In Annual Report of the Research Committee on the Application of Artificial Radioactive Isotopes in Japan, Vol. 2, Part 1,@@pp. 67-70.@1952@@@NIES-2170@NIES2170
1694@Nihei, T., Sasa, T., Miyachi, S., Suzuki, K., Tamiya, H.@Change of photosynthetic activity of Chlorella cells during the course of their normal life cycle.@Arch. Mikrobiol.,@21,@156-166.@1954@@@NIES-2170@NIES2170
1695@Miyachi, S., Hirokawa, T., Tamiya, H.@Effect of quinone on the light-induced capacity of carbon dioxide fixation in green algae.@J. Biochem.,@42,@737-743.@1955@@@NIES-2170@NIES2170
1696@Miyachi, S., Izawa, S., Tamiya, H.@Effect of oxygen on the capacity of carbon dioxide fixation by green algae.@J. Biochem.,@42,@221-244.@1955@@@NIES-2170@NIES2170
1697@Miyachi, S., Hirokawa, T., Tamiya, H.@The "background" CO₂ fixation occurring in green cells and its possible relation to the mechanism of photosynthesis.@In Research in Photosynthesis, Eds. by Gaffron, H. et al., Intersc. Publ. Inc., New York,@@pp. 205-212. @1957@@@NIES-2170@NIES2170
1698@Tamiya, H., Miyachi, S., Hirokawa, T.@Some new preillumination experiments with carbon-14.@In Research in Photosynthesis, Eds. by Gaffron, H. et al., Intersc. Publ. Inc., New York,@@pp. 213-223. @1957@@@NIES-2170@NIES2170
1699@Tamiya, H.@Mass culture of algae.@Ann. Rev. Plant Physiol.,@8,@309-334.@1957@@@NIES-2170@NIES2170
1700@Sasa, T.@Effect of photphorescent particles suspended in the medium upon the efficiency of light-energy utilization by Chlorella cells.@J. Gen. Appl. Microbiol.,@3,@121-124.@1957@@@NIES-2170@NIES2170
1701@Hase, E., Morimura, Y., Tamiya, H.@Some data on the growth physiology of Chlorella studied by the technique of synchronous culture.@Arch. Biochem. Biophys.,@69,@149-165.@1957@@@NIES-2170@NIES2170
1702@Katoh, T., Hirokawa, T., Miyachi, S.@Effect of pre-illumination upon the Hill reaction in Chlorella cells.@J. Biochem.,@45,@907-912.@1958@@@NIES-2170@NIES2170
1703@Hirokawa, T., Miyachi, S., Tamiya, H.@Effect of hydrogen peroxide on the light-induced capacity of carbon dioxide-fixation in green algae.@J. Biochem.,@45,@1005-1010.@1958@@@NIES-2170@NIES2170
1704@Tamiya, H., Miyachi, S., Hirokawa, T., Katoh, T.@Effect of some poisons upon the mechanism of photosynthesis as studied by the technique of "pre-illumination" using C¹⁴ as a tracer.@In Radioisotopes in Scientific Research. Vol. 4. Research with Radioisotopes in Plant Biology and Some General Problems, Ed. by Extermann, R. C., Pergamon Press, London,@@pp.1-15. @1958@@@NIES-2170@NIES2170
1705@Kanazawa, T.@Synchronous culture of Chlorella with special reference of the processes of assimilation of potassium magnesium and iron.@J. Gen. Appl. Microbiol.,@4,@102-107.@1958@@@NIES-2170@NIES2170
1706@Hase, E., Morimura, Y., Mihara, S., Tamiya, H.@The role of sulfur in the cell division of Chlorella.@Arch. Mikrobiol.,@32,@87-95.@1958@@@NIES-2170@NIES2170
1707@Kanazawa, T., Fujita, C., Yuhara, T., Sasa, T.@Mass culture of unicellular algae using "open circulation method".@J. Gen. Appl. Microbiol.,@4,@135-152.@1958@@@NIES-2170@NIES2170
1708@Inada, Y.@Stimulatory and inhibitory effect of light on the nitrate assimilation by Chlorella.@J. Gen. Appl. Microbiol.,@4,@153-162.@1958@@@NIES-2170@NIES2170
1709@Fujita, K.@The metabolism of acetate in Chlorella cells.@J. Biochem.,@46,@253-268.@1958@@@NIES-2170@NIES2170
1710@Miyachi, S.@Effect of poisons upon the mechanism of photosynthesis as studied by the pre-illumination experiments using carbon-14 as a tracer.@Plant Cell Physiol.,@1,@1-15.@1959@@@NIES-2170@NIES2170
1711@Oh-hama, T. & Miyachi, S.@Effect of illumination and oxygen supply upon the levels of pyridine nucleotides in Chlorella cells.@Biochim. Biophys. Acta,@34,@202-210.@1959@@@NIES-2170@NIES2170
1712@Iwamura, T. & Myers, J.@Changes in the content and distribution of the nucleic acid bases in Chlorella during the life cycle.@Arch. Biochem. Biophys.,@84,@267-277.@1959@@@NIES-2170@NIES2170
1713@Nishimura, M. & Huzisige, H.@Studies on the chlorophyll formation in Euglena gracilis with special reference to the action spectrum of the process.@J. Biochem.,@46,@225-234.@1959@@@NIES-49@NIES49
1714@Hase, E., Mihara, S., Otsuka, H.@An additional note on the nature of sulfur-containing peptide nucleotide complex obtained from Chlorella and yeast.@J. Gen. Appl. Microbiol.,@5,@43-50.@1959@@@NIES-2170@NIES2170
1715@Hase, E., Mihara, S., Otsuka, H., Tamiya, H.@Sulfur-containing peptide-nucleotide complex isolated from Chlorella and yeast cells.@Arch. Biochem. Biophys.,@83,@170-177.@1959@@@NIES-2170@NIES2170
1716@Hattori, A. & Fujita, Y.@Formation of phycobilin pigments in a blue-green alga, Tolypothrix tenuis, as induced by illumination with colored lights.@J. Biochem.,@46,@521-524.@1959@@@NIES-37@NIES37
1717@Watanabe, A.@Distribution of nitrogen-fixing blue-green algae in various areas of south and east Asia.@J. Gen. Appl. Microbiol.,@5,@21-29.@1959@@@NIES-37@NIES37@NIES-22@NIES22
1718@Miyachi, S., Oh-hama, T., Tamiya, H.@Effect of CO₂ on the levels of DPNH and TPNH in pre-illuminated Chlorella cells.@Plant Cell Physiol.,@1,@151-153.@1960@@@NIES-2170@NIES2170
1719@Oh-hama, T. & Miyachi, S.@Changes in levels of pyridine nucleotides in Chlorella cells during the course of photosynthesis.@Plant Cell Physiol.,@1,@155-162.@1960@@@NIES-2170@NIES2170
1720@Miyachi, S.@Effect of some sulfhydryl reagents on light-induced CO₂-fixation in Chlorella.@Plant Cell Physiol.,@1,@117-130.@1960@@@NIES-2170@NIES2170
1721@Iwamura, T.@Distribution of nucleic acids among subcellular fractions of Chlorella.@Biochim. Biophys. Acta,@42,@161-163.@1960@@@NIES-2170@NIES2170
1722@Miyachi, S. & Tamiya, H.@Distribution and turnover of phosphate compounds in growing Chlorella cells.@Plant Cell Physiol.,@2,@405-414.@1961@@@NIES-2170@NIES2170
1723@Miyachi, S. & Miyachi, S.@Modes of formation of phosphate compounds and their turnover in Chlorella cells during the process of life cycle as studied by the technique of synchronous culture.@Plant Cell Physiol.,@2,@415-424.@1961@@@NIES-2170@NIES2170
1724@Miyachi, S. & Tamiya, H.@Some observations on the phosphorus metabolism in growing Chlorella cells.@Biochim. Biophys. Acta,@46,@200-202.@1961@@@NIES-2170@NIES2170
1725@Tsubo, Y.@Chemotaxis and sexual behavior in Chlamydomonas.@J. Protozool.,@8,@114-121.@1961@@@NIES-2222@NIES2222@NIES-2578@NIES2578
1726@Miyachi, S.@Turnover of phosphate compounds in Chlorella cells under phosphate deficiency in darkness.@Plant Cell Physiol.,@3,@1-4.@1962@@@NIES-2170@NIES2170
1727@Miyachi, S., Miyachi, S, Tamiya, H.@Effect of preillumination on the incorporation of sulfur in the lipid fraction of Chlorella cells.@Plant Cell Physiol.,@3,@193-196.@1962@@@NIES-2170@NIES2170
1728@Iwamura, T.@Characterization of the turnover of chloroplast deoxyribonucleic acid in Chlorella.@Biochim. Biophys. Acta,@61,@472-474.@1962@@@NIES-2170@NIES2170
1729@Iwamura, T.@Cellular distributions and properties of nucleic acid species in Chlorella.@In Symposium in Institute of Applied Microbiology, University of Tokyo, Vol. III,@@pp. 259-278 (in Japanese). @1962@@@NIES-2170@NIES2170
1730@Kanai, R., Miyachi, S., Miyachi, S.@Light-induced formation and mobilization of polyphosphate "C" in Chlorella cells.@Plant Cell Physiol.,@Spec. Iss. (Studies on Microalgae and Photosynthetic Bacteria),@613-618.@1963@@@NIES-2170@NIES2170
1731@Hase, E., Miyachi, S., Mihara, S.@A preliminary note on the phosphorus compounds in chloroplast and volutin granules isolated from Chlorella cells.@Plant Cell Physiol.,@Spec. Iss. (Studies on Microalgae and Photosynthetic Bacteria),@619-626.@1963@@@NIES-2170@NIES2170
1732@Iwamura, T., Kanazawa, T., Kanazawa, K.@Nucleotide metabolism in Chlorella. II. Quantitative changes in component-nucleotides of the acid-soluble fraction of algal cells during their life-cycle.@Plant Cell Physiol.,@Spec. Iss. (Studies on Microalgae and Photosynthetic Bacteria),@587-596.@1963@@@NIES-2170@NIES2170
1733@Iwamura, T., Kanazawa, T., Kanazawa, K.@Nucleotide metabolism in Chlorella. I. Chromatographic analysis of the acid-soluble nucleotides.@Plant Cell Physiol.,@Spec. Iss. (Studies on Microalgae and Photosynthetic Bacteria),@577-586.@1963@@@NIES-2170@NIES2170
1734@Miyachi, S., Kanai, R., Miyachi, S., Aoki, S.@Metabolic roles of inorganic polyphosphates in Chlorella cells.@Biochim. Biophys. Acta,@93,@625-634. @1964@@@NIES-2170@NIES2170
1735@Aoki, S. & Miyachi, S.@Chromatographic analysis of acid-soluble polyphosphates in Chlorella cells.@Plant Cell Physiol.,@5,@241-250.@1964@@@NIES-2170@NIES2170
1736@Iwamura, T. & Kuwashima, S.@Formation of adenosine 5-triphosphate from polyphosphate by a cell-free extract from Chlorella.@J. Gen. Appl. Microbiol.,@10,@83-86.@1964@@@NIES-2170@NIES2170
1737@Iwamura, T. & Kuwashima, S.@Further observations on the deoxyribonucleic acid species in Chlorella showing light-dependent metabolic turnover.@Biochim. Biophys. Acta,@82,@678-679.@1964@@@NIES-2170@NIES2170
1738@Iwamura, T. & Muto, N.@Incorporation of 5-bromouracil into the two kinds of DNA in Chlorella.@Plant Cell Physiol.,@5,@359-360.@1964@@@NIES-2170@NIES2170
1739@Miyachi, S., Miyachi, S., Benson, A. A.@Metabolism of phospholipids and galactolipids by Chlorella cells.@Plant Cell Physiol.,@6,@789-792.@1965@@@NIES-2170@NIES2170
1740@Kanai, R., Aoki, S., Miyachi, S.@Quantitative separation of inorganic polyphosphates in Chlorella cells.@Plant Cell Physiol.,@6,@467-473.@1965@@@NIES-2170@NIES2170
1741@Iwamura, T.@Change of nucleic acid content in Chlorella cells during the course of their life-cycle.@J. Biochem.,@42,@575-589.@1965@@@NIES-2170@NIES2170
1742@Miyachi, S. & Miyachi, S.@Sulfolipid metabolism in Chlorella.@Plant Physiol.,@41,@479-486.@1966@@@NIES-2170@NIES2170
1743@Iwamura, T.@Nucleic acid in chloroplasts and metabolic DNA.@Progr. Nucl. Acid Res. Mol. Biol.,@5,@133-155.@1966@@@NIES-2170@NIES2170
1744@Fujita, Y. & Murano, F.@Photochemical activities of sonicated lamellae of spinach chloroplasts with special reference to the action of CRS (cytochrome c reducing substance).@Plant Cell Physiol.,@8,@269-281.@1967@@@NIES-19@NIES19
1745@Miyachi, S., Kanai, R., Benson, A. A.@Aerobically bound CO₂ in Chlorella cells.@In Comparative Biochemistry and Biophysics of Photosynthesis, Eds. by Shibata, K. et al., University of Tokyo Press, Tokyo,@@pp. 246-252. @1968@@@NIES-2170@NIES2170
1746@Ogasawara, N. & Miyachi, S.@Effect of wavelength on ¹⁴CO₂-fixation in Chlorella cells.@In Progress in Photosynthesis Research, Vol. 3., Ed. by Metzner, H., Verlag C. Lichtenstein, München,@@pp. 1653-1661. @1969@@@NIES-2170@NIES2170
1747@Matsumoto, C., Sugiyama, T., Akazawa, T., Miyachi, S.@Structure and function of chloroplast proteins. IX. Further comparative studies on Chlorella and spinach leaf ribulose-1,5-diphosphate carboxylase.@Arch. Biochem. Biophys.,@135,@282-287.@1969@@@NIES-2170@NIES2170
1748@Sugiyama, T., Matsumoto, C., Akazawa, T., Miyachi, S.@Structure and function of chloroplast proteins. VII. Ribulose-1,5-diphosphate carboxylase of Chlorella ellipsoidea.@Arch. Biochem. Biophys.,@129,@597-602.@1969@@@NIES-2170@NIES2170
1749@Iwamura, T. & Kuwashima, S.@Two DNA species in chloroplasts of Chlorella.@Biochim. Biophys. Acta,@174,@330-339.@1969@@@NIES-2170@NIES2170
1750@Ogasawara, N. & Miyachi, S.@Effects of disalicylidenepropandiamine and near far-red light on ¹⁴CO₂-fixation in Chlorella cells.@Plant Cell Physiol.,@11,@411-416.@1970@@@NIES-2170@NIES2170
1751@Miyachi, S. & Hogetsu, D.@Effects of preillumination with light of different wagelengths on subsequent dark CO₂-fixation in Chlorella cells.@Can. J. Bot.,@48,@1203-1207.@1970@@@NIES-2170@NIES2170
1752@Ogasawara, N. & Miyachi, S.@Regulation of CO₂-fixation in Chlorella by light of varied wavelengths and intensities.@Plant Cell Physiol.,@11,@1-14. @1970@@@NIES-2170@NIES2170
1753@Hogetsu, D. & Miyachi, S.@Effect of oxygen on the light-enhanced dark carbon dioxide fixation in Chlorella cells.@Plant Physiol.,@45,@178-182.@1970@@@NIES-2170@NIES2170
1754@Iwamura, T., Nagai, H., Ichimura, S.@Improved methods for determining contents of chlorophyll, protein, ribonucleic acid, and deoxyribonucleic acid in planktonic populations.@Int. Revue Ges. Hydrobiol.,@55,@131-147.@1970@@@NIES-2170@NIES2170
1755@Iwamura, T.@Phylogenetic aspects of algal biochemistry (1) DNA species in algae.@Ann. NY Acad. Sci., @175,@488-510.@1970@@@NIES-2170@NIES2170
1756@Ogasawara, N. & Miyachi, S.@Effects of dark preincubation and chloramphenicol on blue light-induced CO₂ incorporation in Chlorella cells.@Plant Cell Physiol.,@12,@675-682.@1971@@@NIES-2170@NIES2170
1757@Kamiya, A. & Miyachi, S.@Effects of blue light on respiration and carbon dioxyde fixation in colorless Chlorella mutant cells.@Plant Cell Physiol.,@15,@927-937.@1974@@@NIES-2162@NIES2162
1758@Kamiya, A. & Miyachi, S.@Blue light-induced formation of photphoenolpyruvate carboxylase in colorless Chlorella mutant cells.@Plant Cell Physiol.,@16,@729-736.@1975@@@NIES-2162@NIES2162
1759@Miyachi, S. & Okabe, K.@Oxygen enhancement of photosynthesis in Anacystis nidulans cells.@Plant Cell Physiol.,@17,@973-986.@1976@@@NIES-2093@NIES2093@NIES-3277@NIES3277
1760@Takabayashi, A., Nishimura, T., Iwamura, T.@Incorporation of radioactive tracers of some labelled compounds into DNA, RNA, and protein in Chlorella cells at various stages of the cell cycle in synchronous culture.@J. Gen. Appl. Microbiol.,@22,@183-196.@1976@@@NIES-2170@NIES2170
1761@Murata, N.@Uphill energy transfer from chlorophyll a to phycobilins in blue-green algae Anabaena variabilis and Anacystis nidulans.@Plant Cell Physiol.,@Spec. Iss. (Photosynthetic Organelles),@9-13.@1977@@@NIES-2093@NIES2093@NIES-3277@NIES3277
1762@Miyachi, S., Kamiya, A., Muto, S.@Isolation of peroxisomes from colorless Chlorella mutant cells and intracellular localization of isocitratelyase, malate synthase and phosphoenolpyruvate carboxylase.@Plant Cell Physiol.,@Spec. Iss. (Photosynthetic Organelles),@347-353.@1977@@@NIES-2162@NIES2162
1763@Miyachi, S., Kamiya, S., Miyachi, S.@Wavelength-effect of incident light on carbon metabolish in Chlorella cells.@In Biological Solar Energy Conversion, Eds. by Mitsui, A. et al., Academic Press, New York,@@pp. 167-182. @1977@@@NIES-2160@NIES2160@NIES-2162@NIES2162
1764@Miyachi, S., Hogetsu, D., Miyachi, S.@Effect of environmental factors on photosynthetic carbon metabolism.@In Photosynthetic CO2 Assimilation and Photorespiration, Eds. by Vaklinova, S. G. et al., Publishing House of Bulgarian Academy of Science, Sofia,@@pp. 15-30. @1977@@@NIES-2160@NIES2160
1765@Nakamura, Y. & iyachi, S.@Conversion of glucose-polymer to sucrose in Chlorella induced by high temperature.@In Biological Solar Energy Conversion, Eds. by Mitsui, A. et al., Academic Press, New York, @@pp. 203-212. @1977@@@NIES-2160@NIES2160
1766@Maruyama, K.@Classification of Chlorella strain by infrared absorption spectra of cell samples.@Bot. Mag. Tokyo,@90,@67-77.@1977@@@NIES-687@NIES687@NIES-685@NIES685@NIES-226@NIES226@NIES-2163@NIES2163@NIES-2170@NIES2170@NIES-2151@NIES2151@NIES-2175@NIES2175@NIES-227@NIES227
1767@Hogetsu, D. & Miyachi, S.@Effects of CO₂ concentration during growth on subsequent photosynthetic CO₂ fixation.@Plant Cell Physiol.,@18,@347-352.@1977@@@NIES-2160@NIES2160
1768@Ohmori, M., Ohmori, K., Strotman, H.@Inhibition of nitrate uptake by ammonia in a blue-green alga, Anabaena cylindrica.@Arch. Mikrobiol.,@114,@225-229.@1977@@@NIES-19@NIES19
1769@Takeda, H. & Hirokawa, T.@Studies on the cell wall of Chlorella. I. Quantitative changes in cell wall polysaccharides during the cell cycle of Chlorella ellipsoidea.@Plant Cell Physiol.,@19,@591-598.@1978@@cell cycle; cell wall polysaccharides; Chlorella@NIES-2170@NIES2170
1770@Sakaguchi, T., Horikoshi, T., Nakajima, A.@Uptake of uranium from seawater by microalgae.@J. Ferm. Technol.,@56,@561-565.@1978@@@NIES-2138@NIES2138@NIES-2139@NIES2139@NIES-2238@NIES2238@NIES-2212@NIES2212@NIES-2279@NIES2279
1771@Hatano, S.@Studies on frost hardiness in Chlorella ellipsoidea: Effects of antimetabolites, surfactants, hormones, and sugars on the hardening process in the light and dark.@In Plant Cold Hardiness and Freezing Stress, Eds. by Li, P. H. & Sakai, A., Academic Press, New York,@@pp. 175-196. @1978@@@NIES-2170@NIES2170
1772@Sadakane, H., Kawanami, T., Imamura, H., Fukumoto, K., Kawai, Y., Hatano, S.@Studies on synchronous culture in three strains of Chlorella ellipsoidea with different susceptibilities to low temperature. @Sci. Bull. Fac. Agr., Kyushu Univ.,@32,@161-168 (in Japanese).@1978@@@NIES-2170@NIES2170
1773@Miyachi, S. & Shiraiwa, Y.@Form of inorganic carbon utilized for photosynthesis in Chlorella vulgaris 11h cells.@Plant Cell Physiol.,@20,@341-348.@1979@@carbon dioxide fixation; carbonic anbydrase; Chlorella; photosynthesis; transport of CO2@NIES-2160@NIES2160
1774@Sato, N., Murata, N., Miura, Y., Ueta, N.@Effect of growth temperature on lipid and fatty acid compositions the blue-green algae, Anabaena variabilis and Anacystis nidulans.@Biochim. Biophys. Acta,@572,@19-28.@1979@@@NIES-2093@NIES2093@NIES-3277@NIES3277
1775@Tsuzuki, M. & Miyachi, S.@Effects of CO₂ concentration during growth and of ethoxyzolamide on CO₂ compensation point in Chlorella.@FEBS Lett., @103,@221-223.@1979@@@NIES-2160@NIES2160
1776@Takeda, H. & Hirokawa, T.@Studies on the cell wall of Chlorella. II. Mode of increase of glucosamine in the cell wall during the synchronous growth of Chlorella ellipsoidea.@Plant Cell Physiol.,@20,@989-991.@1979@@cell cycle; cell wall; Chlorella; glucosamine; synchronous culture@NIES-2170@NIES2170
1777@Sakaguchi, T., Tsuji, T., Nakajima, A., Horikoshi, T.@Accumulation of cadmium by green microalgae.@Eur. J. Appl. Microbiol. Biotechnol.,@8,@207-215.@1979@@@NIES-2212@NIES2212@NIES-2273@NIES2273@NIES-2274@NIES2274@NIES-2279@NIES2279
1778@Nakajima, A., Horikoshi, T., Sakaguchi, T.@Uptake of copper ion by green microalgae.@Agric. Biol. Chem.,@43,@1455-1460.@1979@@@NIES-2212@NIES2212@NIES-2273@NIES2273@NIES-2274@NIES2274@NIES-2279@NIES2279
1779@Miyachi, S.@Light-enhanced dark CO₂ fixation in CO₃ plants. @In Encyclopedia of Plant Physiology, New Series, 6, Eds. by Gibbs, M. & Latzko, E., Springer-Verlag, Berlin,@@pp. 68-76. @1979@@@NIES-2170@NIES2170
1780@Hogetsu, D. & Miyachi, S.@Role of carbonic anhydrase in photosynthetic CO₂ fixation in Chlorella.@Plant Cell Physiol.,@20,@747-756.@1979@@carbonic anhydrase; Chlorella; CO2 fixation; photosynthesis; ribulose 1,5-bisphosphate carboxylase@NIES-2160@NIES2160
1781@Hirai, A., Nishimura, T., Iwamura, T.@Synthetic rates of chloroplast and cytoplasmic ribosomal ribonucleic acids during the cell cycle of Chlorella.@Plant Cell Physiol.,@20,@93-102.@1979@@cell cycle; Chlorella; chloroplast rRNA; cytoplasmic rRNA; RNA synthesis; radioisotopic precursor@NIES-2170@NIES2170
1782@Kabata, K., Sadakane, H., Miyachi, S., Nagata, K., Hatano, S., Watanabe, T.@Studies on lipid changes during the development of frost hardiness in Chlorella ellipsoidea.@J. Fac. Agr., Kyushu Univ.,@23,@155-161.@1979@@@NIES-2170@NIES2170
1783@Sato, N. & Murata, N.@Temperature shift-induced responses in lipids in the blue-green alga, Anabaena variabilis. The central role of diacylmonogalactosylglycerol in thermo-adaptation.@Biochim. Biophys. Acta,@619,@353-366.@1980@@@NIES-2093@NIES2093
1784@Miyachi, S., Kamiya, A., Miyachi, S.@Effects of blue light on respiration and non-photosynthetic CO₂ fixation in Chlorella 11 h cells. @In The Blue Light Syndrome, Ed. by Senger, H., Springer-Verlag, Berlin,@@pp. 321-328. @1980@@@NIES-2160@NIES2160
1785@Miyachi, S. & Miyachi, S.@Effects of ammonia on carbon metabolism in photosynthesizing Chlorella vulgaris 11h: the replacement of blue light by ammonium ion.@In The Blue Light Syndrome, Ed. by Senger, H., Springer-Verlag, Berlin,@@pp. 429-434. @1980@@@NIES-2160@NIES2160
1786@Hirokawa, T. & Takeda, H.@Automatic analysing system for the liquid chromatography.@J. Gen. Edu. Dept., Niigata Univ.,@10,@97-106.@1980@@@NIES-226@NIES226@NIES-2170@NIES2170
1787@Tsuzuki, M., Shiraiwa, Y., Miyachi, S.@Role of carbonic anhydrase in photosynthesis in Chlorella derived from kinetic analysis of ¹⁴CO₂ fixation.@Plant Cell Physiol.,@21,@677-688.@1980@@carbonic anhydrase; Chlorella; CO2 fixation; kinetic analysis; photosynthesis@NIES-2160@NIES2160
1788@Nakamura, Y. & Miyachi, S.@Effects of temperature and CO₂ concentration on photosynthetic CO₂ fixation by Chlorella.@Plant Cell Physiol.,@21,@765-774.@1980@@Chlorella; CO2 fixation; glucose-polymer; glycolate; sucrose; temperature@NIES-2160@NIES2160
1789@Nakamura, Y. & Miyachi, S.@Effects of temperature on glycolate metabolism in Chlorella.@Plant Cell Physiol.,@21,@1541-1549.@1980@@Chlorella; CO2 fixation; glucose-polymer; glycolate; sucrose; temperature@NIES-2160@NIES2160
1790@Ohmori, M. & Hattori, A.@C₂H₂ reduction and ¹⁵N₂ fixation in blue-green algae.@In Molybdenum Chemistry of Biological Significance, Eds. by Newton, W. E. & Otsuka, S., Plenum Publishing Co., New York,@@pp. 95-104. @1980@@@NIES-19@NIES19
1791@Kabata, K., Sadakane, H., Kurose, M., Kobayakawa, A., Watanabe, T., Hatano, S.@Changes in fatty acid composition of membrane fractions during hardening of Chlorella ellipsoidea.@J. Fac. Agr., Kyushu Univ.,@25,@91-97.@1980@@@NIES-2170@NIES2170
1792@Kuroiwa, T., Suzuki, T., Ogawa, K., Kawano, S.@The chloroplast nucleus: Distribution, number, size and shape, and a model for the multiplication of the chloroplast genome during chloroplast development.@Plant Cell Physiol.,@22,@381-396.@1981@@chloroplast nuclei; classification (chloroplast); development (Chloroplast); division cycle (chloroplast)@NIES-47@NIES47@NIES-2572@NIES2572
1793@Sato, N. & Murata, N.@Studies on the temperature shift-induced desaturation of fatty acids in monogalactosyl diacylglycerol in the blue-green alga (cyanobacterium) Anabaena variabilis.@Plant Cell Physiol.,@22,@1043-1050.@1981@@Anabaena variabilis; cyanobacterium; fatty acid desaturation; monogalactosyl diacylglycerol; temperature shift@NIES-2093@NIES2093
1794@Yamada, T. & Sakaguchi, K.@Protoplast induction in Chlorella species.@Agric. Biol. Chem.,@45,@1905-1909.@1981@@@NIES-685@NIES685@NIES-2160@NIES2160@NIES-2189@NIES2189@NIES-2165@NIES2165@NIES-2170@NIES2170
1795@Tsuzuki, M., Muto, S., Miyachi, S.@Role of carbonic anhydrase in photosynthesis of higher plants: A possible limiting step in CO₂ transport.@In Photosynthesis. VI. Regulation of Carbon Metabolism, Ed. by Akoyunoglou, G., Balaban International Science Services, Philadelphia,@@pp. 483-492. @1981@@@NIES-2160@NIES2160
1796@Shiraiwa, Y., Fakler, J., Miyachi, S.@Factors controlling carbonic anhydrase activity in Chlorella vulgalis 11h.@In Photosynthesis. VI. Regulation of Carbon Metabolism, Ed. by Akoyunoglou, G., Balaban International Science Services, Philadelphia, @@pp. 493-499.@1981@@@NIES-2160@NIES2160
1797@Miyachi, S. & Tsuzuki, M.@Carbonic anhydrase and carbon uptake in photosynthesis of green algae and terrestrial C₃ plants.@In Proceedings of the First Binational Joint-Symposium under Japan-Australia Cooperative Science Programme "Integration of Photosynthetic Carbon Metabolism as Basis of Plant Productivity",@@pp. 15-18.@1981@@@NIES-2160@NIES2160
1798@Sato, N. & Murata, N.@Lipid biosynthesis in the blue-green alga, Anabaena variabilis. I. Lipid class.@Biochim. Biophys. Acta,@710,@271-278.@1982@@@NIES-2093@NIES2093
1799@Sato, N. & Murata, N.@Lipid biosynthesis in the blue-green alga, Anabaena variabilis. II. Fatty acids and lipid molecular species.@Biochim. Biophys. Acta,@710,@279-289.@1982@@@NIES-2093@NIES2093
1800@Sato, N. & Murata, N.@Lipid biosynthesis in the blue-green alga (cyanobacterium), Anabaena variabilis. III. UDPglucose: diacylglycerol glucosyltransferase in vitro.@Plant Cell Physiol.,@23,@1115-1120.@1982@@Anabaena variabilis; blue-green alga; glucosyltransterase; glyceroglycolipids; monoglucosyl diacylglycerol@NIES-2093@NIES2093
1801@Hirokawa, T., Hata, M., Takeda, H.@Correlation between the starch level and the rate of starch synthesis during the developmental cycle of Chlorella ellipsoidea.@Plant Cell Physiol.,@23,@813-820.@1982@@14C-fixation; cell cycle; Chlorella ellipsoidea; photosynthesis; starch accumulation; starch synthesis; synchronous culture@NIES-2170@NIES2170
1802@Oh-hama, T., Seto, H., Otake, N., Miyachi, S.@¹³C-NMR evidence for the pathway of chlorophyll biosynthesis in algae.@Biochem. Biophys. Res. Commun.,@105,@647-652.@1982@@@NIES-2280@NIES2280
1803@Nakamura, Y. & Miyachi, S.@Changes in starch photosynthesized at different temperature in Chlorella.@Plant Sci. Lett.,@27,@1-6.@1982@@@NIES-2160@NIES2160
1804@Matumura, H., Muto, S., Miyachi, S.@Light-induced conversion of NAD⁺ to NADP⁺ in Chlorella cells.@Biochim. Biophys. Acta,@679,@300-307.@1982@@@NIES-2160@NIES2160@NIES-2161@NIES2161
1805@Takeda, H. & Hirokawa, T.@Studies on the cell wall of Chlorella. III. Incorporation of photosynthetically fixed carbon into cell walls of synchronously growing cells of Chlorella ellipsoidea.@Plant Cell Physiol.,@23,@1033-1040.@1982@@cell cycle; cell wall polysaccharides; cell wall turnover; Chlorella ellipsoidea; photosynthesis; synchronous culture@NIES-2170@NIES2170
1806@Yamada, T. & Sakaguchi, K.@Comparative studies on Chlorella cell walls: Induction of protoplast formation.@Arch. Mikrobiol.,@132,@10-13.@1982@@@NIES-2159@NIES2159@NIES-2189@NIES2189@NIES-686@NIES686@NIES-2163@NIES2163@NIES-2168@NIES2168@NIES-2166@NIES2166@NIES-227@NIES227@NIES-2171@NIES2171@NIES-2352@NIES2352
1807@Nakamura, Y. & Miyachi, S.@Effect of temperature on starch degradation in Chlorella vulgaris 11h cells.@Plant Cell Physiol.,@23,@333-341.@1982@@Chlorella vulgaris; CO2 fixation; starch; sucrose; temperature (starch degradation)@NIES-2160@NIES2160
1808@Aoshima, J., Nishimura, T., Iwamura, T.@DNA polymerases of Chlorella. I. Chloroplastic and nuclear DNA polymerases in synchronized algal cells.@Cell Struct. Funct.,@7,@327-340.@1982@@@NIES-2170@NIES2170
1809@Iwamura, T., Katoh, K., Nishimura, T.@Semi-conservative replication of chloroplast DNA in synchronized Chlorella.@Cell Struct. Funct.,@7,@71-86.@1982@@@NIES-2170@NIES2170
1810@Hashimoto, H. & Murakami, S.@Changes in morphology and ultrastructure of chloroplast along its division cycle in Euglena gracilis cultured synchronously under photoautotrophic condition.@Scientific Papers of the College of General Education, Univ. of Tokyo,@32,@55-64.@1982@@@NIES-48@NIES48
1811@Hashimoto, H. & Murakami, S.@Chloroplast replication and loss of chloroplast DNA induced by nalidixic acid in Euglena gracilis.@Cell Struct. Funct.,@7,@111-120.@1982@@@NIES-48@NIES48
1812@Miyachi, S., Tsuzuki, M., Avramova, S. T.@Utilization modes of inorganic carbon for photosynthesis in various species of Chlorella.@Plant Cell Physiol.,@24,@441-451.@1983@@bicarbonate fixation; carbonic anhydrase; Chlorella; photosynthetic CO2-fixation@NIES-687@NIES687@NIES-2157@NIES2157@NIES-2160@NIES2160@NIES-2093@NIES2093@NIES-2173@NIES2173
1813@Tsuzuki, M.@Mode of HCO₃-utilization by the cells of Chlamydomonas reinhardtii grown under ordinary air.@Z. Pflanzenphysiol.,@110,@29-37.@1983@@@NIES-2160@NIES2160@NIES-2170@NIES2170@NIES-2235@NIES2235
1814@Shiraiwa, Y. & Miyachi, S.@Factors controlling induction of carbonic anhydrase and efficiency of photosynthesis in Chlorella vulgaris 11h cells.@Plant Cell Physiol.,@24,@919-923.@1993@@carbonic anhydrase; Chlorella vulgaris (11h cell); CO2 fixation; photosynthesis@NIES-2160@NIES2160
1815@Takeda, H. & Hirokawa, T.@Studies on the cell walls of Chlorella. IV. Incorporation of glucose-carbon into cell walls of synchronously growing cell of Chlorella ellipsoidea.@Plant Cell Physiol.,@24,@1157-1161.@1983@@cell cycle; cell wall synthesis; Chlorella ellipsoidea; glucose uptake; synchronous culture@NIES-2170@NIES2170
1816@Nakamura, Y. & Imamura, M.@Characterization of Chlorella phosphorylase: the glucan specificity and effect of temperature.@Phytochemistry,@22,@2395-2399.@1983@@Chlorella vulgaris; Chlorophyceae; phosphorylase; photosynthesis; starch; temperature@NIES-2160@NIES2160
1817@Nakamura, Y.@Change in molecular weight distribution in starch when degraded at different temperatures in Chlorella vulgaris.@Plant Sci. Lett.,@30,@259-265.@1983@@Chlorella; photosynthetic CO2 fixation; starch metabolism; temperature@NIES-2160@NIES2160
1818@Nakamura, Y. & Imamura, M.@Change in properties of starch when photosynthesized at different temperature in Chlorella vulgaris.@Plant Sci. Lett.,@31,@123-131.@1983@@Chlorella; photosynthetic CO2 fixation; starch metabolism; temperature@NIES-2160@NIES2160
1819@Hashimoto, H. & Murakami, S.@Effects of cycloheximide and chloramphenicol on chloroplast replication in synchronously dividing cultured cells of Euglena gracilis.@New Phytol.,@94,@521-529.@1983@@@NIES-48@NIES48
1820@Murata, N., Wada, H., Hirasawa, R.@Reversible and irreversible inactivation of photosynthesis in relation to the lipid phases of membranes in the blue-green algae (cyanobacteria) Anacystis nidulans and Anabaena variabilis.@Plant Cell Physiol.,@25,@1027-1032.@1984@@@NIES-2093@NIES2093@NIES-3277@NIES3277
1821@Wada, H., Hirasawa, R., Omata, T., Murata, N.@The lipid phase of thylakoid and cytoplasmic membranes from the blue-green algae (cyanobacteria), Anacystis nidulans and Anabaena variabilis.@Plant Cell Physiol.,@25,@907-911.@1984@@@NIES-2093@NIES2093@NIES-3277@NIES3277
1822@Tachibana, H.@Fundamental study on algal growth potential.@Proc. Environ. Sanit. Eng. Res., @20,@53-60 (in Japanese).@1984@@@NIES-44@NIES44
1823@Takeda, H. & Hirokawa, T.@Studies on the cell wall of Chlorella. V. Comparison of the cell wall chemical compositions in strains of Chlorella ellipsoidea.@Plant Cell Physiol.,@25,@287-295.@1984@@cell wall amino compounds; cell wall composition; cell wall polysaccharides; Chlorella cell wall; Chlorella ellipsoidea; strain identification@NIES-2170@NIES2170
1824@Tsuzuki, M., Shimamoto, T., Yang, S. Y., Miyachi, S.@Diversity in intracellular locality, nature, and function of carbonic anhydrase in verious plants.@Ann. NY Acad. Sci., @429,@238-240.@1984@@@NIES-687@NIES687@NIES-2160@NIES2160@NIES-2161@NIES2161@NIES-2162@NIES2162@NIES-2280@NIES2280@NIES-2173@NIES2173@NIES-2235@NIES2235@NIES-2170@NIES2170
1825@Ohmori, M., Miyachi, S., Okabe, K., Miyachi, S.@Effects of ammonia on respiration, adenylate levels, amino acid synthesis and CO₂ fixation in cells of Chlorella vulgaris 11h in darkness.@Plant Cell Physiol.,@25,@749-756.@1984@@adenylate level; amino acid; ammonia effect; Chlorella vulgaris; dark CO2 fixation; respiration@NIES-2160@NIES2160
1826@Yagawa, Y., Shiraiwa, Y., Miyachi, S.@Carbonic anhydrase from the blue-green alga (cyanobacterium) Anabaena variabilis.@Plant Cell Physiol.,@25,@775-783.@1984@@Anabaena variabilis; blue-green alga; carbonic anhydrase (EC4.2.1.1); cyanobacterium; enzyme purification@NIES-2093@NIES2093
1827@Miyachi, S., Hirosawa, T., Tsuzuki, M.@Regulation of photosynthetic carbon metabolism in microalgae by wavelength of incident light and by CO₂ concentration.@In Advances in Photosynthesis Research, Vol. 3, Ed. by Sybesma, C., M. Ninhoff / Dr. W. Junk Publishers, Hague,@@pp. 565-572. @1984@@@NIES-2093@NIES2093@NIES-19@NIES19@NIES-3277@NIES3277
1828@Ehara, T., Sumida, S., Osafune, T., Hase, E.@Interactions between the nucleus and cytoplasmic organelles during the cell cycle of Euglena gracilis in cynchronized cultures. I. Associations between the nucleus and chloroplasts at an early stage in the cell cycle under photoorganotrophic conditions (Part I). @Plant Cell Physiol.,@25,@1133-1146.@1984@@cell cycle; chloroplast-nucleus association; chloroplast-nucleoid; chromosome; Euglena gracilis@NIES-48@NIES48
1829@Hirosawa, T.@Near-UV and blue light effects in cyanobacteria.@In Blue Light Effects in Biological Systems, Ed. by Senger, H., Springer-Verlag, Berlin,@@pp. 39-47. @1984@@@NIES-37@NIES37@NIES-19@NIES19@NIES-2093@NIES2093@NIES-3277@NIES3277
1830@Iwamura, T. & Aoshima, J.@Multiplication of chloroplast DNA.@Protein, Nucleic Acid and Enzyme,@29,@191-201 (in Japanese).@1984@@@NIES-2170@NIES2170
1831@Aoshima, J., Kubota, M., Nishimura, T., Iwamura, T.@DNA polymerases of Chlorella. II. Characterization to distinguish the two enzymes.@J. Biochem.,@96,@461-473.@1984@@@NIES-2170@NIES2170
1832@Miyachi, S., Tsuzuki, M., Aizawa, K.@Factors which enhance photosynthesis in microalgae under limiting CO₂ concentrations.@In Kinetics of Photosynthetic Carbon Metabolism in C₃-plants. II. Electron Transport, Transport of CO₂, Mathematical Models, Eds. by Viil, J. et al., Akademiya Nauka, Estonia SSR,@@pp. 88-92. @1985@@@NIES-2160@NIES2160@NIES-2235@NIES2235
1833@Yang, S.-Y., Tsuzuki, M., Miyachi, S.@Carbonic anhydrase of Chlamydomonas: Pulification and studies on its induction using antiserum against Chlamydomonas carbonic anhydrase.@Plant Cell Physiol.,@26,@25-34.@1985@@affinity chromatography; carbon dioxide concentration; carbonic anhydrase; Chlamydomonas reinhardtii; enzyme induction@NIES-2235@NIES2235
1834@Tsuzuki, M., Miyachi, S., Berry, J. A.@Intercellular accumulation of inortanic carbon and its active species taken up by Chlorella vulgaris 11h.@In Inorganic Carbon Uptake by Aquatic Photosynthetic Organisms, Eds. by Lucas, W. J. & Berry, J. A., American Society of Plant Physiologists, Rockville, Md,@@pp. 53-66. @1985@@@NIES-2160@NIES2160
1835@Miyachi, S., Tsuzuki, M., Yagawa, Y.@Carbonic anhydrase in various microalgae.@In Inorganic Carbon Uptake by Aquatic Photosynthetic Organisms, Eds. by Lucas, W. J. & Berry, J. A., American Society of Plant Physiologists, Rockville, Md,@@pp. 145-154. @1985@@@NIES-2160@NIES2160@NIES-2093@NIES2093@NIES-2173@NIES2173
1836@Oh-hama, T., Seto, H., Miyachi, S.@¹³C-Nuclear magnetic resonance studies of the biosynthesis of 5-aminolevulinic acid destined for chlorophyll formation in dark-grown Scenedesmus obliquus.@Plant Sci.,@42,@153-158.@1985@@biosynthesis of 5-aminolevulinic acid; chlorophyll biosynthesis; 13C-nuclear magnetic resonance; Scenedesmus obliquus@NIES-2280@NIES2280
1837@Takeda, H. & Hirokawa, T.@Cell-wall chemistry, structure and components.@In Modern Methods of Plant Analysis, New Series Vol. 1, Eds. by Linskens, H. F. & Jackson, J. F., Springer-Verlag, Berlin,@@pp. 31-53. @1985@@@NIES-2170@NIES2170
1838@Aizawa, K., Nakamura, Y., Miyachi, S.@Variation of phosphoenolpyruvate carboxylase activity in Dunaliella associated with changes in atmospheric CO₂ concentration.@Plant Cell Physiol.,@26,@1199-1203.@1985@@carbonic anhydrase; Dunaliella; phosphoenolpyruvate carboxylase; photosynthesis; Porphyridium@NIES-2138@NIES2138
1839@Shiraiwa, Y. & Miyachi, S.@Effects of temperature and CO₂ concentration on induction of carbonic anhydrase and changes in efficiency of photosynthesis in Chlorella vulgaris 11h.@Plant Cell Physiol.,@26,@543-549.@1985@@carbonic anhydrase; Chlorella vulgaris; CO2 concentration; photosynthesis; temperature@NIES-2160@NIES2160
1840@Miyachi, S. & Miyachi, S.@Ammonia induces starch degradation in Chlorella cells.@Plant Cell Physiol.,@26,@245-252.@1985@@ammonia effect; Chlorella; dark CO2 fixation; starch degradation; sucrose formation@NIES-687@NIES687@NIES-2157@NIES2157@NIES-2160@NIES2160@NIES-2170@NIES2170@NIES-2173@NIES2173
1841@Osafune, T., Ehara, T., Sumida, S., Hase, E.@Interactions between the nucleus and cytoplasmic organelles durihg the cell cycle of Euglena gracilis in synchronized cultures. II. Associations between the nucleus and chloroplasts at an early stage of the cell cycle under photoautotrophic conditions.@Plant Cell Physiol.,@26,@263-270.@1985@@cell cycle; chloroplast nucleoid; chloroplast-nucleus connection; chromosome; Euglena gracilis@NIES-48@NIES48
1842@Ehara, T., Osafune, T., Hase, E.@Interactions between the nucleus and cytoplasmic organelles durihg the cell cycle of Euglena gracilis in synchronized cultures. III. Associations between the nucleus and chloroplasts at an early stage of the cell cycle under photoorganotrophic conditions (part II).@Plant Cell Physiol.,@26,@1155-1165.@1985@@cell cycle; chloroplast-nucleus association; chloroplast-nucleoid; Euglena gracilis; three-dimensional chloroplast model@NIES-48@NIES48
1843@Nakamura, Y. & Imamura, M.@Regulation of ADP-glucose pyrophosphorylase from Chlorella vulgaris.@Plant Physiol.,@78,@601-605.@1985@@@NIES-2160@NIES2160
1844@Tachibana, H., Moriguchi, A., Inoue, T., Imaoka, T.@Fundamental study on algal growth potential. II. Utilization of particulate nutrients by algae in river waters.@Proc. Environ. Sanit. Eng. Res., @22,@151-161 (in Japanese).@1986@@@NIES-44@NIES44@NIES-2170@NIES2170
1845@Sato, N., Seyama, Y., Murata, N.@Lipid-linked desaturation of palmitic acid in monogalactosyl diacylglycerol in the blue-green alga (cyanobacterium) Anabaena variabilis studied in vivo.@Plant Cell Physiol.,@27,@819-835.@1986@@Anabaena variabilis; blue-green alga (cyanobacterium); lipid-linked desaturation; mass spectroscopy; monogalactosyl diacylglycerol; palmitoleic acid biosynthesis@NIES-2093@NIES2093
1846@Aizawa, K., Tsuzuki, M., Miyachi, S.@Kinetic studies on fhe active species of inorganic carbon absorbed by the cells of Dunaliella tertiolecta.@Plant Cell Physiol.,@27,@37-47.@1986@@bicarbonate utilization; carbon dioxide; carbonic anhydrase; cell surface; Dunaliella tertiolecta; photosynthesis@NIES-2170@NIES2170
1847@Miyachi, S., Tsuzuki, M., Maruyama, I., Ganter, M., Miyachi, S.@Effects of CO₂ concentration during growth on the intracellular structure of Chlorella and Scenedesmus (Chlorophyta).@J. Phycol.,@22, @313-319.@1986@@Chlorella; CO2 concentration; electron microscopy; pyrenoid starch; Scenedesmus@NIES-687@NIES687@NIES-2280@NIES2280@NIES-2157@NIES2157@NIES-2160@NIES2160@NIES-2170@NIES2170@NIES-2173@NIES2173
1848@Omata, T. & Murata, N.@Glucolipid synthesis activities in cytoplasmic and the thylakoid membranes from the cyanobacterium Anacystis nidulans. @Plant Cell Physiol.,@27,@485-490.@1986@@Anacystis nidulans; cyanobacterium; cytoplasmic membrane; glucolipid; lipid biosynthesis; thylakoid membrane@NIES-2170@NIES2170@NIES-3277@NIES3277
1849@Ohmori, M., Oh-hama, T., Furihata, K., Miyachi, S.@Effect of ammonia on cellular pH of Anabaena cylindrica determined with ³¹P NMR spectroscopy.@Plant Cell Physiol.,@27,@563-566.@1986@@ammonia effect; Anabaena cylindrica; 31P NMR spectroscopy; cellular pH@NIES-19@NIES19
1850@Toguri, T., Muto, S., Miyachi, S.@Biosynthesis and intracellular processing of carbonic anhydrase in Chlamydomonas reinhardtii.@Eur. J. Biochem.,@58,@443-450.@1986@@@NIES-2235@NIES2235
1851@Suzuki, E., Tsuzuki, M., Miyachi, S.@Accumlation of inorganic carbon in the cells of Euglena gracilis Z grown photoautotrophically in ordinary air.@Plant Cell Physiol.,@27,@1205-1208.@1986@@Euglena gracilis Z; intracellular inorganic carbon accumulation; photosynthesis@NIES-48@NIES48
1852@Tsuzuki, M.@Transport and fixation of inorganic carbon in the cells of Chlorella vulgaris 11h grown under ordinary air.@Plant Cell Physiol.,@27,@1233-1240.@1986@@carbon dioxide; carbonic anhydrase; Chlorella vulgaris; inorganic carbon; photosynthesis@NIES-2160@NIES2160
1853@Aizawa, K. & Miyachi, S.@Carbonic anhydrase and CO₂ concentrating mechanisms in microalgae and cyanobacteria.@FEMS Microbiol. Lett., @39,@215-233.@1986@@aquatic algae; cyanobacteria; photoautotrophs; photorespiration; photosynthesis; transport@NIES-2160@NIES2160@NIES-2235@NIES2235@NIES-2173@NIES2173@NIES-2093@NIES2093
1854@Yagawa, Y., Aizawa, K., Yang, S.-Y., Miyachi, S.@Release of carbonic anhydrase from the cell surface of Chlamydomonas reinhardtii by trypsin.@Plant Cell Physiol.,@27,@215-221.@1986@@carbonic anhydrase; cell surface; Chlamydomonas reinhardtii; trypsin treatment@NIES-2235@NIES2235
1855@Tsukada, S., Ehara, T., Sumida, S., Osafune, T., Hase, E.@Behaviour of proplastids and their nucleoids in dark-organotrophically grown cells of Euglena gracilis transferred to an inorganic medium.@Br. Phycol. J.,@21,@155-163.@1986@@@NIES-48@NIES48
1856@Iwamura, T.@The feasibility of Chlorella as the exchanger of CO₂ for O₂ and the food resources in the space station.@In Biological Sciences in Space 1986, Eds. by Watanabe, S. et al., MYU Research, Tokyo,@@pp. 257-264. @1987@@@NIES-2170@NIES2170
1857@Yokota, A. & Kitaoka, S.@A method for determination of glyoxylate with pumpkin isocitrate lyase and its application to photosynthesizing Euglena gracilis Z.@Plant Sci.,@46,@97-101.@1986@@determination of glyoxylate; pumpkin isocitrate lyase; Euglena gracilis@NIES-48@NIES48
1858@Maruyama, I., Nakamura, T., Matubayashi, T., Ando, Y., Maeda, T.@Identification of the alga known as "marine Chlorella" as a member of the Eustigmatophyceae.@Jpn. J. Phycol. (Sôrui),@34,@319-325.@1986@@@NIES-2146@NIES2146
1859@Hirano, H., Takeda, Y., Iwamura, T.@Unique repetitive sequences of 170 bp in Chlorella.@Plant Mol. Biol.,@7,@311-317.@1986@@Chlorella; HaeIII family; repetitive sequence; tandem repeat@NIES-2160@NIES2160@NIES-2170@NIES2170
1860@Hirano, H., Iguchi, M., Nishimura, T., Iwamura, T.@Isolation of high molecular weight cellular DNA with a novel granulated hydroxyapatite.@Agric. Biol. Chem.,@50,@219-221.@1986@@@NIES-2170@NIES2170
1861@Abe, T., Tsuzuki, M., Miyachi, S.@Transport and fixation of inorganic carbon during photosynthesis of Anabaena grown under ordinary air. I. Active species of inorganic carbon utilized for photosynthesis.@Plant Cell Physiol.,@28,@273-281.@1987@@Anabaena; carbon dioxide fixation; cyanobacterium; IC transport photosynthesis@NIES-2093@NIES2093
1862@Kuchitsu, K., Oh-hama, T., Tsuzuki, M., Miyachi, S.@Detection and characterization of acidic compartments (vacuoles) in Chlorella vulgaris 11h cells by ³¹P-in vivo NMR spectroscopy and cytochemical techniques.@Arch. Mikrobiol.,@148,@83-87.@1987@@@NIES-2160@NIES2160
1863@Suzuki, E., Tsuzuki, M., Miyachi, S.@Photosynthetic characteristics of chloroplasts isolated from Euglena gracilis Z grown photoautotrophically.@Plant Cell Physiol.,@28,@1377-1388.@1987@@carbon dioxide concentration; Euglena gracilis Z; isolated chloroplast; photoautotrophic growth; photosynthetic carbon fixation@NIES-48@NIES48
1864@Abe, T., Tsuzuki, M., Kaplan, A., Miyachi, S.@Transport and fixation of inorganic carbon during photosynthesis in the cells of Anabaena grown under ordinary air. II. Effect of sodium concentration during growth on the induction of active transport system for IC. @Plant Cell Physiol.,@28,@671-677.@1987@@Anabaena variabilis; CO2 accumulation; cyanobacterial growth; photosynthesis; sodium@NIES-2093@NIES2093
1865@Abe, T., Tsuzuki, M., Miyachi, S.@Transport and fixation of inorganic carbon during photosynthesis in the cells of Anabaena grown under ordinary air. III. Some characteristics of the HCO3-transport system in cells grown under ordinary air. @Plant Cell Physiol.,@28,@867-874.@1987@@Anabaena; carbonic anhydrase; IC transport; photosynthesis; sodium@NIES-2093@NIES2093
1866@Yagawa, Y., Muto, S., Miyachi, S.@Carbonic anhydrase of a unicellular red alga Porphyridium cruentum R-1. I. Purification and properties of the enzyme.@Plant Cell Physiol.,@28,@1253-1262.@1987@@carbonic anhydrase; chloride ion-activation; Porphyridium cruentum@NIES-2138@NIES2138
1867@Yagawa, Y., Muto, S., Miyachi, S.@Carbonic anhydrase of a unicellular red alga Porphyridium cruentum R-1. II. Distribution and role in photosynthesis.@Plant Cell Physiol.,@28,@1509-1516.@1987@@anti-Porphyridium carbonic anhydrase antibody; carbonic anhydrase; immunogold electron microscopy; intracellular distribution; Porphyridium cruentum@NIES-2138@NIES2138
1868@Miyachi, S. & Miyachi, S.@Some biochemical changes related to starch breakdown induced by blue light illumination and by addition of ammonia to Chlorella cells.@Plant Cell Physiol.,@28,@309-314.@1987@@ammonia; adenylates; blue light; Chlorella; orthophosphate; phosphorylase@NIES-2160@NIES2160
1869@Hosokawa, Y., Miki-Noumura, T.@Bending motion of Chlamydomonas axonemes after extrusion of central-pair microtubules.@J. Cell Biol.,@105,@1297-1301.@1987@@@NIES-2239@NIES2239
1870@Ohta, S., Miyamoto, K., Miura, Y.@Hydrogen evolution as a consumption mode of reducing equivalents in green algal fermentation.@Plant Physiol.,@83,@1022-1026.@1987@@@NIES-2169@NIES2169@NIES-3284@NIES3284
1871@Yokota, A. & Kitaoka, S.@The mechanism of induction of glycolate excretion by aminooxyacetate in low CO₂-grown Euglena gracilis Z.@Agric. Biol. Chem.,@51,@665-670.@1987@@@NIES-48@NIES48
1872@Yokota, A. & Kitaoka, S.@Rates of glycolate synthesis and metabolism during photosynthesis of Euglena and microalgae grown on low CO₂.@Planta,@170,@181-189.@1987@@aminooxyacetate; Chlorophyta (microalgae); CO2-concentrating mechanism; cyanobacteria; Euglena; glycolate excretion; photosynthesis (CO2-concentrating mechanism)@NIES-48@NIES48
1873@Sato, N.@Dual role of methionine in the biosynthesis of diacylglyceryltrimethylhomoserine in Chlamydomonas reinhardtii.@Plant Physiol.,@86,@931-934.@1988@@@NIES-3284@NIES3284
1874@Kuchitsu, K., Tsuzuki, M., Miyachi, S.@Changes of starch localization within the chloroplast induced by changes in CO₂ concentration during growth of Chlamydomonas reinhardtii. Independent regulation of pyrenoid starch and stroma starch.@Plant Cell Physiol.,@29,@1269-1278.@1988@@Chlamydomonas (Chlorophyta); chloroplast; CO2 concentration; pyrenoid; starch; stroma@NIES-2235@NIES2235
1875@Kuchitsu, K., Tsuzuki, M., Miyachi, S.@Characterization of the pyrenoid isolated from unicellular green alga Chlamydomonas reinhardtii. Particulate form of RuBisCO protein.@Protoplasma,@144,@17-24.@1988@@Chlamydomonas; pyrenoid; ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO); stroma@NIES-2235@NIES2235
1876@Yagawa, Y., Muto, S., Miyachi, S.@Carbonic anhydrase of Chlamydomonas reinhardtii. Cellular distribution and subunit constitution in two strains.@Plant Cell Physiol.,@29,@185-188.@1988@@carbonic anhydrase (cellular distribution); Chlamydomonas@NIES-2235@NIES2235
1877@Ehara, T., Sumida, S., Osafune, T.@Dynamic morphological changes of organelles in Euglena gracilis Z.@J. Tokyo Med. Coll.,@46,@420-431.@1988@@@NIES-48@NIES48
1878@Bürger, J., Miyachi, S., Galland, P., Senger, H.@Quantum requirements of photosynthetic oxygen evolution and 77K fluorescence emission spectra in unicellular green algae grown under low- and high-CO₂-conditions.@Botanica Acta,@101,@229-232.@1988@@@NIES-2235@NIES2235@NIES-2173@NIES2173
1879@Iwamura, T., Kunieda, R. Kuwashima, S., Nishimura, T.@Inhibition of growth of Chlorella by various drugs.@J. Nat. Sci. Nagoya Economics Univ., Ichimura Gakuen Junior Coll.,@23,@1-11.@1988@@@NIES-2170@NIES2170
1880@Nishimura, T., Pachpande, R. R., Iwamura, T.@A heterotrophic synchlonous culture of Chlorella.@Cell Struct. Funct.,@13,@207-215.@1988@@@NIES-2170@NIES2170
1881@Kojima, E. & Yamaguchi, Y.@Photoproduction of hydrogen by adapted cells of Chlorella pyrenoidosa.@J. Ferment. Technol.,@66,@19-25.@1988@@@NIES-685@NIES685
1882@Fukumoto, T., Nishimura, T., Nagasawa, T., Kitajima, K., Iwamura, T.@Exclusion chromatography with controlled-pore glass beads to isolate Chlorella chromatin and its applications.@Anal. Biochem.,@170,@463-471.@1988@@@NIES-2170@NIES2170
1883@Shimogawara, K. & Muto, S.@Heat shock induced change in protein ubiquitination in Chlamydomonas.@Plant Cell Physiol.,@30,@9-16.@1989@@ATP-dependent proteolytic system; Chlamydomonas; heat shock response; protein degradation; ubiquitin@NIES-2138@NIES2138
1884@Tsuzuki, M. & Miyachi, S.@The function of carbonic anhydrase in aquatic photosynthesis.@Aquatic Botany,@34,@85-104.@1989@@@NIES-2138@NIES2138@NIES-2160@NIES2160@NIES-2093@NIES2093@NIES-2173@NIES2173@NIES-2235@NIES2235
1885@Dionisio, M. L., Tsuzuki, M., Miyachi, S.@Light requirement for carbonic anhydrase induction in Chlamydomonas reinhardtii.@Plant Cell Physiol.,@30,@207-213.@1989@@blue light; carbonic anhydrase; Chlamydomonas reinhardtii; enzyme induction; light intensity@NIES-2235@NIES2235
1886@Dionisio, M. L., Tsuzuki, M., Miyachi, S.@Blue light induction of carbonic anhydrase activity in Chlamydomonas reinhardtii.@Plant Cell Physiol.,@30,@215-219.@1989@@blue light; carbonic anhydrase; Chlamydomonas reinhardtii; enzyme induction; photoreceptor@NIES-2235@NIES2235
1887@Toguri, T., Muto, S., Mihara, S., Miyachi, S.@Synthesis and degradation of carbonic anhydrase in a synchronized culture of Chlamydomonas reinhardtii.@Plant Cell Physiol.,@30,@533-539.@1989@@carbonic anhydrase synthesis; Chlamydomonas reinhardtii; synchronous culture@NIES-2235@NIES2235
1888@Sato, N.@Modulation of lipid and fatty acid content by carbon dioxide in Chlamydomonas reinhardtii.@Plant Sci.,@61,@17-21.@1989@@carbon dioxide; Chlamydomonas; fatty acid; lipid@NIES-3284@NIES3284
1889@Nara, M., Shiraiwa, Y., Hirokawa, T.@Changes in the carbonic anhydrase activity and the rate of photosynthetic O₂ evolution during the cell cycle of Chlorella ellipsoidea C-27.@Plant Cell Physiol.,@30,@267-275.@1989@@carbonic anhydrase; cell cycle; Chlorella; CO2 concentration; photosynthesis; synchronous culture@NIES-2170@NIES2170
1890@Osafune, T., Sumida, S., Ehara, T., Hase, E.@Three-dimensional distribution of ribulose-1,5-bisphosphate carboxylase/oxygenase in chloroplasts of actively photosynthesizing cell of Euglena gracilis.@J. Electr. Microsc., @38,@399-402.@1989@@Euglena gracilis Z; immunoelectron microscopy; chloroplast; RuBisCO; three-dimensional distribution@NIES-48@NIES48
1891@Satoh, H. & Takeda, H.@Detection and first characterization of a cell-wall lytic activity in Chlorella ellipsoidea C-27.@Physiol. Plant.,@77,@20-26.@1989@@autolysis; cell wall; Chlorella; lytic activity@NIES-2170@NIES2170
1892@Maruyama, I., Ando, Y., Maeda, T., Hirayama, K.@Uptake of vitamin B₁₂ by various strains of unicellular algae Chlorella.@Nippon Suisan Gakkaishi,@55,@1785-1790.@1989@@@NIES-687@NIES687@NIES-2157@NIES2157@NIES-2169@NIES2169@NIES-226@NIES226@NIES-2175@NIES2175@NIES-48@NIES48
1893@Ishikawa, I. S.@Characteristic structures of Spirulina trichome involved in gliding movement.@Plant Morphol.,@2,@7-14.@1990@@gliding movement; Spirulina; thylakoid; trichome; motive force@NIES-27@NIES27
1894@Osafune, T., Yokota, A., Sumida, S., Hase, E.@Immunogold localization of ribulose-1,5-bisphosphate carboxylase with reference to pyrenoid morphology in chloroplasts of synchronized Euglena gracilis cells.@Plant Physiol.,@92,@802-808.@1990@@@NIES-48@NIES48
1895@Osafune, T., Ehara, T., Ito, A., Hase, E.@Incorporation of cytoplasmic structures by developing proplastids in dark-grown Euglena gracilis cells transferred to an inorganic medium in darkness.@J. Electr. Microsc., @39,@168-171.@1990@@Euglena gracilis; dark proplastid development; incorporation; cytoplasmic structure@NIES-48@NIES48
1896@Osafune, T., Sumida, S., Ehara, T., Kodama, M., Hase, E.@Immunoelectron microscopic evidence for the occurrence of ribulose 1,5-bisphosphate carboxylase/oxygenase in "propyrenoids" of Euglena gracilis.@J. Electr. Microsc., @39,@101-104.@1990@@chloroplast development; Euglena; propyrenoid; ribulose-1,5-bisphosphate carboxylase/oxygenase; immunocytochemistry@NIES-48@NIES48
1897@Osafune, T., Schiff. J. A., Hase, E.@Immunogold localization of LHCP II apoprotein in the Golgi of Euglena.@Cell Struct. Funct.,@15,@99-105.@1990@@Euglena; Golgi apparatus; immunogold localization; LHCP II@NIES-48@NIES48
1898@Ehara, T., Ogasawara, Y., Osafune, T.@Behavior of chloroplast nucleoids during the cell cycle of Chlamydomonas reinhardtii (Chlorophyta) in synchronized culture.@J. Phycol.,@26,@317-323.@1990@@cell cycle; Chlamydomons; chloroplast division; DAPI; nucleoid@NIES-2235@NIES2235
1899@Iwamura, T., Takeda, Y., Nishimura, T.@A c-myc like DNA fragment in Chlorella.@J. Nat. Sci. Nagoya Economics Univ., Ichimura Gakuen Junior Coll.,@24,@23-40 (in Japanese).@1990@@@NIES-2170@NIES2170
1900@Iehara, M.@Kinetic analysis of the growth of Chlorella vulgaris.@Biotech. Bioeng.,@36,@198-206.@1990@@@NIES-227@NIES227
1901@Kashino, Y., Enami, I., Satoh, K., Katoh, S.@Immunological cross-reactivity among corresponding proteins of photosystems I and II from widely divergent photosynthetic organisms.@Plant Cell Physiol.,@31,@479-488.@1990@@antiserum; cross-reactivity; immunoblotting; photosystem; protein@NIES-2138@NIES2138@NIES-2235@NIES2235@NIES-2093@NIES2093
1902@Tsuzuki, M., Ohnuma, E., Sato, N., Takaku, T., Kawaguchi, A.@Effects of CO₂ concentration during growth on fatty acid composition in microalgae.@Plant Physiol.,@93,@851-856.@1990@@@NIES-2138@NIES2138@NIES-2160@NIES2160@NIES-2093@NIES2093@NIES-2235@NIES2235@NIES-48@NIES48
1903@Osafune, T., Ehara, T., Tahara, M., Hase, E.@Effects of blue and red light on chloroplast development in dark-grown wax-rich cells of Euglena gracilis transferred to inorganic medium.@J. Electr. Microsc., @39,@254-259.@1990@@Euglena gracilis; blue and red light; chloroplast development@NIES-48@NIES48
1904@Ehara, T., Osafune, T., Hase, E.@Interactions between the nucleus and cytoplasmic organelles during the cell cycle of Euglena gracilis in synchronized cultures.@Exp. Cell Res.,@190,@104-112.@1990@@@NIES-48@NIES48
1905@Fukuzawa, H., Fujiwara, S., Yamamoto, Y., Dionisio-Sese, M. L., Miyachi, S.@cDNA cloning, sequence, and expression of carbonic anhydrase in Chlamydomonas reinhardtii: Regulation by environmental CO₂ concentration.@Proc. Nati. Acad. Sci. U. S. A.,@87,@4383-4387.@1990@@@NIES-2235@NIES2235
1906@Tamiya, H. & Chiba, Y.@Analysis of photosynthetic methanism by the method of intermittent illumination. I. Experimental part.@Studies from the Tokugawa Institute,@Vol.6, No.2,@1-42.@1949@@@NIES-2170@NIES2170
1907@Tamiya, H.@An additional note on the kinetics of algal growth.@Bot. Mag. Tokyo,@64,@216-218.@1951@@@NIES-2170@NIES2170
1908@Tamiya, H., Shibata, K., Sasa, T., Iwamura, T., Morimura, Y.@Effect of diurnally intermittent illumination on the growth and some cellular characteristics of Chlorella.@In Algal Culture, From Laboratory to Pilot Plant, Carnegie Institution of Washington Publication 600, The Kirby Lithographic Co., Washington D.C.,@@pp. 78-84. @1953@@@NIES-2170@NIES2170
1909@Tamiya, H., Hase, E., Shibata, K., Mitsuya, A., Iwamura, T., Nihei, T., Sasa, T.@Kinetics of growth of Chlorella, with special reference to its dependence on quantity of available light and on temperature.@In Algal Culture, From Laboratory to Pilot Plant, Carnegie Institution of Washington Publication 600, The Kirby Lithographic Co., Washington D.C.,@@pp. 204-232. @1953@@@NIES-2170@NIES2170
1910@Mitsuya, A., Nyunoya, T., Tamiya, H.@Prepilot-plant experiment on algal mass culture.@In Algal Culture, From Laboratory to Pilot Plant, Carnegie Institution of Washington Publication 600, The Kirby Lithographic Co., Washington D.C.,@@pp. 273-281. @1953@@@NIES-2170@NIES2170
1911@Tamiya, H., Iwamura, T., Shibata, K., Hase, E., Nihei, T.@Correlation between photosynthesis and light-independent metabolism in the growth of Chlorella.@Biochim. Biophys. Acta,@Spec. Iss. (Cell Chemistry, Festschr. for Otto Warburg) 12,@23-40.@1953@@@NIES-2170@NIES2170
1912@Iwamura, T., Hase, E., Moriyama, Y., Tamiya, H.@Life cycle of the green alga Chlorella with special reference to the protein and nucleic acids contents of cells in successive formative stages.@In A.I. Virtanen homage volume, Biochemistry of Nitrogen, Helsinki,@@pp. 89-103. @1955@@@NIES-2170@NIES2170
1913@Tamiya, H., Sasa, T., Nihei, T., Ishibashi, S.@Effect of variation of day-length, day and night-temperature, and intensity of daylight upon the growth of Chlorella.@J. Gen. Appl. Microbiol.,@1,@298-307.@1955@@@NIES-2170@NIES2170
1914@Hase, E., Otsuka, H., Mihara, S., Tamiya, H.@Role of sulfur in the cell division of Chlorella, studied by the technique of synchronous culture.@Biochim. Biophys. Acta,@35,@180-189.@1959@@@NIES-2170@NIES2170
1915@Hase, E., Moriyama, Y., Tamiya, H.@A short remark on the role of sulfur in the cell division of Chlorella.@J. Gen. Appl. Microbiol.,@6,@68-69.@1960@@@NIES-2170@NIES2170
1916@Hase, E., Mihara, S., Tamiya, H.@Sulfur-containing deoxypentose polynucleotides obtained from Chlorella cells.@Biochim. Biophys. Acta,@39,@381-382.@1960@@@NIES-2170@NIES2170
1917@Hase, E., Mihara, S., Tamiya, H.@Some data on the nature of sulfur-containing peptide-nucleotide compounds obtained from Chlorella cells at different developmental stages in their life cycle.@J. Gen. Appl. Microbiol.,@6,@61-67.@1960@@@NIES-2170@NIES2170
1918@Hase, E., Mihara, S., Tamiya, H.@Role of sulfur in the cell division of Chlorella with special reference to the sulfur compounds appearing during the process of cell division. I.@Plant Cell Physiol.,@1,@131-142.@1960@@@NIES-2170@NIES2170
1919@Schwarze, P., Frandsen, N. O.@Herstellung von Chlorella-Farbmutanten mit Hilfe von radioaktiven Isotopen.@Naturwissenschaften,@47,@47.@1960@@@NIES-2161@NIES2161@NIES-2162@NIES2162
1920@Sasa, T., Kunieda, R., Tamiya, H.@Growing Daphnia (water-fleas) with Chlorella.@J. Gen. Appl. Microbiol.,@6,@252-255.@1960@@@NIES-2170@NIES2170
1921@Hase, E., Mihara, S., Tamiya, H.@Role of sulfur in the cell division of Chlorella with special reference to the sulfur compounds appearing during the process of cell division. II.@Plant Cell Physiol.,@2,@9-24.@1961@@@NIES-2170@NIES2170
1922@Mihara, S.@Changes in glucosamine content of Chlorella cells during the course of their life cycle.@Plant Cell Physiol.,@2,@25-29.@1961@@@NIES-2170@NIES2170
1923@Tamiya, H., Morimura, Y., Yokota, M., Kunieda, R.@Mode of nuclear division in synchronous cultures of Chlorella: Comparison of various methods of synchronization.@Plant Cell Physiol.,@2,@383-403.@1961@@@NIES-2170@NIES2170
1924@Hase, E., Mihara, S., Tamiya, H.@Capabilities of various sulfur substances in inducing the cell division of Chlorella arrested by sulfur deficiency.@J. Gen. Appl. Microbiol.,@7,@173-176.@1961@@@NIES-2170@NIES2170
1925@Tamiya, H., Morimura, Y., Yokota, M.@Effects of various anti-metabolites upon the life cycle of Chlorella.@Arch. Mikrobiol.,@42,@4-16.@1962@@@NIES-2170@NIES2170
1926@Morimura, Y. & Tamiya, H.@Anomalies of the life cycle of Chlorella caused by some anti-metabolites.@Maheshwari Comm. Vol., J. Indian Bot. Soc.,@42A,@122-129.@1963@@@NIES-2170@NIES2170
1927@Tamiya, H.@Control of cell division in microalgae.@J. Cell & Comp. Physiol.,@62,@157-174.@1963@@@NIES-2170@NIES2170
1928@Tamiya, H.@Cell differentiation in Chlorella.@In Cell Differentiation: Symposium of the Society for Experimental Biology,@XVII,@pp. 188-214.@1963@@@NIES-2170@NIES2170@NIES-48@NIES48
1929@Shibata, K., Morimura, Y., Tamiya, H.@Precise measurement of the change of statistical distribution of cell size occurring during the synchronous culture of Chlorella.@Plant Cell Physiol.,@5,@315-320.@1964@@@NIES-2170@NIES2170
1930@Tamiya, H.@Growth and cell division of Chlorella.@In Synchrony in Cell Division and Growth, Ed. by Zeuthen, E., John Wiley & Sons, New York,@@pp. 247-305. @1964@@@NIES-2170@NIES2170
1931@Tamiya, H. & Morimura, Y.@Synchronous culture of Chlorella starting from a homogeneous population.@In Synchrony in Cell Division and Growth, Ed. by Zeuthen, E., John Wiley & Sons, New York,@@pp. 565-569. @1964@@@NIES-2170@NIES2170
1932@Morimura, Y., Yanagi, S., Tamiya, H.@Synchronous mass-culture of Chlorella.@Plant Cell Physiol.,@5,@281-289.@1964@@@NIES-2170@NIES2170
1933@Oh-hama, T., Moriyama, Y., Tamiya, H.@Changes in contents and oxidoreductive states of pyridine nucleotides in Chlorella cells during their life cycle.@In Beitr. zur Biochem. und Physiol. von Naturstoffen (Festschr. f. K. Mothes), Gustav Fischer, Jena,@@pp. 341-345. @1965@@@NIES-2170@NIES2170
1934@Tamiya, H.@Synchronous cultures of algae.@Ann. Rev. Plant Physiol.,@17,@1-26.@1966@@@NIES-2170@NIES2170
1935@Kanazawa, T., Yanagisawa, T., Tamiya, H.@Aliphatic amines occurring in Chlorella cells and changs of their contents during the life cycle of the alga.@Z. Botanik, Festschr. f. E. Bünning,@54,@57-62.@1966@@@NIES-2170@NIES2170
1936@Mihara, S. & Hase, E.@Studies on the vegetative life cycle of Chlamydomonas reinhardtii Dangeard in synchronous culture. I. Some characteristics of the cell cycle.@Plant Cell Physiol.,@12,@225-236.@1971@@@NIES-2235@NIES2235
1937@Mihara, S. & Hase, E.@Studies on the vegetative life cycle of Chlamydomonas reinhardtii Dangeard in synchronous culture. II. Effects of chloramphenicol and cycloheximide on the length of cell cycle.@Plant Cell Physiol.,@12,@237-241.@1971@@@NIES-2235@NIES2235
1938@Osafune, T., Mihara, S., Hase, E., Ohkuro, I.@Electron microscope studies on the vegetative cellular life cycle of Chlamydomonas reinhardi Dangeard in synchronous culture. II. Association of mitochondria and the chloroplast at an early developmental stage.@Plant Cell Physiol.,@13,@981-989.@1972@@@NIES-2235@NIES2235
1939@Osafune, T., Mihara, S., Hase, E., Ohkuro, I.@Electron microscope studies on the vegetative cellular life cycle of Chlamydomonas reinhardi Dangeard in synchronous culture. I. Some characteristics of changes in subcellular structures during the cell cycle, especially in formation of giant mitochondria.@Plant Cell Physiol.,@13,@211-227.@1972@@@NIES-2235@NIES2235
1940@Ichimura, T.@Culture of microalgae (6).@Iden,@27,@97-101 (in Japanese).@1973@@@NIES-66@NIES66@NIES-338@NIES338@NIES-450@NIES450@NIES-198@NIES198@NIES-180@NIES180@NIES-181@NIES181@NIES-183@NIES183@NIES-175@NIES175@NIES-173@NIES173@NIES-179@NIES179
1941@Osafune, T., Mihara, S., Hase, E., Ohkuro, I.@Electron microscope studies on the vegetative cellular life cycle of Chlamydomonas reinhardi Dangeard in synchronous culture. III. Three-dimensional structures of mitochondria in the cells at intermediate stages of the growth phase of the cell cycle.@J. Electr. Microsc., @24,@247-252.@1975@@@NIES-2235@NIES2235
1942@Mihara, S. & Hase, E.@Studies on the vegetative life cycle of Chlamydomonas reinhardtii Dangeard in synchronous culture. III. Some notes on the process of zoospore liberation.@Plant Cell Physiol.,@16,@371-375.@1975@@@NIES-2235@NIES2235
1943@Mihara, S. & Hase, E.@Studies on the vegetative life cycle of Chlamydomonas reinhardtii Dangeard in synchronous culture. IV. Effects of 6-methyl purine on the revolution of the cell cycle.@Plant Cell Physiol.,@16,@1121-1130.@1975@@@NIES-2235@NIES2235
1944@Hatano, S., Sadakane, H., Tutumi, M., Watanabe, T.@Studies on frost hardiness in Chlorella ellipsoidea. I. Development of frost hardiness of Chlorella ellipsoidea in cynchronous culture.@Plant Cell Physiol.,@17,@451-458.@1976@@@NIES-2170@NIES2170
1945@Hatano, S., Sadakane, H., Tutumi, M., Watanabe, T.@Studies on frost hardiness in Chlorella ellipsoidea. II. Effects of inhibitors of RNA and protein synthesis and surfactants on the process of hardening.@Plant Cell Physiol.,@17,@643-651.@1976@@@NIES-2170@NIES2170
1946@Osafune, T., Mihara, S., Hase, E., Ohkuro, I.@Electron microscope studies of the vegetative cellular life cycle of Chlamydomonas reinhardi Dangeard in synchronous culture. IV. Mitochondria in dividing cells. @J. Electr. Microsc., @25,@261-269.@1976@@@NIES-2235@NIES2235
1947@Shihira-Ishikawa, I., Osafune, T., Ehara, T., Ohkuro, I., Hase, E.@An early light-independent phase of chloroplast development in dark-grown cells of Euglena gracilis Z. I. Dependence of the plastid development on previous culture conditions.@Plant Cell Physiol.,@Spec. Iss. (Photosynthetic Organelles),@445-454.@1977@@@NIES-48@NIES48
1948@Maruyama, K.@Classification of Chlorella strains by cell appearance and group sera.@Bot. Mag. Tokyo,@90,@57-66.@1977@@@NIES-685@NIES685@NIES-226@NIES226@NIES-2163@NIES2163@NIES-2170@NIES2170@NIES-2151@NIES2151@NIES-227@NIES227@NIES-2175@NIES2175
1949@Ohmori, M. & Hattori, A.@Transfer change in the ATP pool of Anabaena cylindrica associated with ammonia assimilation.@Arch. Mikrobiol.,@117,@17-20.@1978@@@NIES-19@NIES19
1950@Mihara, S. & Hase, E.@Studies on the vegetative life cycle of Chlamydomonas reinhardi Dangeard in synchronous culture. V. The transition point for the effect of 6-methyl purine in the cell cycle.@Plant Cell Physiol.,@19,@83-89.@1978@@cell cycle; Chlamydomonas; 6-methyl purine; transition point@NIES-2235@NIES2235
1951@Oh-hama, T., Senger, H.@Spectral effectiveness in chlorophyll and 5-amino levulinic acid formation during regreening of glucose-bleached cells of Chlorella protothecoides.@Plant Cell Physiol.,@19,@1295-1299.@1978@@ALA synthesis; blue light effect; Chlorella protothecoides; chlorophyll formation@NIES-227@NIES227
1952@Katoh, T. & Gantt, E.@Photosynthetic vesicles with bound phycobilisomes from Anbaena variabilis.@Biochim. Biophys. Acta,@546,@383-393.@1979@@@NIES-2093@NIES2093
1953@Sadakane, H., Kabata, K., Ishibashi, K., Watanabe, T., Hatano, S.@Studies on frost hardiness in Chlorella ellipsoidea. V. The role of glucose and related compounds.@Environ. Exp. Bot.,@20,@297-305.@1980@@@NIES-2170@NIES2170
1954@Hatano, S., Kabata, K., Sadakane, H.@Transition of lipid synthesis from chloroplasts to a cytoplasmic system during hardening in Chlorella ellipsoidea.@Plant Physiol.,@67,@216-220.@1981@@@NIES-687@NIES687@NIES-2170@NIES2170
1955@Sadakane, H., Ishibashi, K., Yosimoto, M., Hatano, S.@Effects of low temperature, light and O₂ on chilling-sensitive and -resistant strains in Chlorella ellipsoidea.@Plant Cell Physiol.,@22,@657-666.@1981@@chilling injury; Chlorella ellipsoidea; O2 evolution; O2 uptake@NIES-2170@NIES2170
1956@Ohmori, M. & Ohmori, K.@Application of glass fiber paper chromatography to measurement of ¹⁵N content of amino acids.@Radioisotopes,@31,@651-653.@1982@@glass fiber paper chromatography; nitrogen-15-amino acid@NIES-19@NIES19
1957@Hatano, S., Kabata, K., Yoshimoto, M., Sadakane, H.@Accumulation of free fatty acid during hardening of Chlorella ellipsoidea.@Plant Physiol.,@70,@1173-1177.@1982@@@NIES-2170@NIES2170
1958@Hatano, S. & Kabata, K.@Transition of lipid metabolksm in relation to frost hardiness in Chlorella ellipsoidea.@In Plant Cold Hardiness and Freezing Stress, Eds. by Li, P. H. & Sakai, A., Academic Press, New York,@@pp. 145-156. @1982@@@NIES-2170@NIES2170
1959@Kume, N., Isono, T., Katoh, T.@Stability of cyanobacterial phycobilisomes in reference to their concentration.@Photobiochem. Photobiophys.,@4,@25-37.@1982@@@NIES-2093@NIES2093
1960@Kume, N. & Katoh, T.@Dissociation kinetics of Anabaena phycobilisomes.@Plant Cell Physiol.,@23,@803-812.@1982@@Anabaena variabilis; blue-green alga; dissociation kinetics; molecular assembly; phycobiliprotein; phycobilisome@NIES-2093@NIES2093
1961@Sadakane, H. & Hatano, S.@Isoenzymes of glucose 6-phosphate dehydrogenase in relation to frost hardiness of Chlorella ellipsoidea.@In Plant Cold Hardiness and Freezing Stress, Eds. by Li, P. H. & Sakai, A., Academic Press, New York,@@pp. 157-167. @1982@@@NIES-2170@NIES2170
1962@Ono, T., Murata, N., Fujita, T.@Thermal analysis of membrane lipids from the blue-green algae Anacystis nidulans and Anabaena variabilis.@Plant Cell Physiol.,@24,@635-639.@1983@@Anabaena variabilis; Anacystis nidulans; blue-green alga; lipid; thermal analysis; thylakoid membrane@NIES-2093@NIES2093
1963@Oh-hama, T., Seto, H., Otake, N., Miyachi, S.@¹³C-NMR spectra of chlorophylls a and b in green algae biosynthetically enriched with [1-¹³C] glutamate.@FEBS Lett., @153,@404-408.@1983@@5-aminolevulinic acid; chlorophyll a; chlorophyll b; 13C-NMR; [1-13C]glutamic acid; Scenedesmus obliquus@NIES-2280@NIES2280
1964@Nakamura, Y. & Imamura, M.@Characteristics of a-glucan phosphorylase from Chlorella vulgaris.@Phytochemistry,@22,@835-840.@1983@@Chlorella vulgaris; Chlorophyceae; phospholyrase; starch; ADP-glucose; UDP-glucose@NIES-2160@NIES2160
1965@Isono, T. & Katoh, T.@Subparticles of Anabaena phycobilisomes. 1. Reconstruction of allophycocyanin cores and entire phycobilisomes.@Plant Cell Physiol.,@24,@357-368.@1983@@allophycocyanin (assembly); blue-green algae (Anabaena variabilis); in vitro association (phycobilisome); phycobilisome core; phycobilisome; protein assembly@NIES-2093@NIES2093
1966@Ohmori, M.@Effects of preillumination on dark nitrogen fixation and respiration by Anabaena cylindrica.@Plant Cell Physiol.,@25,@125-130.@1984@@acetylene reduction; Anabaena; dark nitrogen fixation; respiration@NIES-19@NIES19
1967@Ohmori, M. & Ohmori, K.@Differential effects of methionine sulfoximine on light and dark uptake of nitrate by Anabaena cylindrica.@Plant Cell Physiol.,@26,@957-960.@1985@@Anabaena cylindrica; methionine sulfoximine; nitrate uptake; nitrite uptake@NIES-19@NIES19
1968@Ohmori, M., Saito, T., Ohmori, K.@Occurrence of glutamine-2-oxoacid transaminase activity in the blue-green alga, Anabaena cylindrica. @J. Gen. Appl. Microbiol.,@31,@171-176.@1985@@@NIES-2170@NIES2170@NIES-19@NIES19
1969@Oh-hama, T., Siebelt, F., Furihata, K., Seto, H., Miyachi, S., Ohmori, K.@³¹P-NMR studies on inorganic polyphosphates in microalgae.@J. Phycol.,@22,@485-490.@1986@@Anabaena cylindrica; Chlorella vulgaris 11h; inorganic polyphosphate; 13P nuclear magnetic resonance of algae@NIES-2280@NIES2280
1970@Ohmori, M. & Kanda, J.@H⁺ and K⁺ efflux associated with NH⁴⁺ uptake in Anabaena cylindrica cells in the dark.@J. Gen. Appl. Microbiol.,@33,@311-319.@1987@@@NIES-19@NIES19
1971@Hatano, S., Akashi, H., Nogata, Y., Yoshimoto, M.@Fatty acid synthetase system in relation to frost hardiness in Chlorella ellipsoidea.@In Plant Cold Hardiness , Ed. by Li, P. H., Alan R. Liss, Inc., New York,@@pp. 101-115. @1987@@@NIES-2170@NIES2170
1972@Yamada, K., Moriyama, R., Hatano, S.@Production of osmotically labile cells in Chlorella ellipsoidea C-27 and C-102 by enzyme treatment.@Agric. Biol. Chem.,@51,@579-580.@1987@@@NIES-2170@NIES2170
1973@Ohmori, K. & Ohmori, M.@Ammonium assimilation in the blue-green alga Spirulina platensis.@Jpn. J. Phycol. (Sôrui),@36,@12-16.@1988@@@NIES-39@NIES39
1974@Ohmori, M., Ohmori, K., Hasunuma, K.@Rapid change in cyclic 3',5'-AMP concentration triggered by a light-off or light-on signal in Anabaena cylindrica.@Arch. Mikrobiol.,@150,@203-204.@1988@@@NIES-19@NIES19
1975@Ohmori, M., Hasunuma, K., Furukawa, K.@GTP-binding proteins in a cyanobacterium Anabaena cylindrica.@Biochem. Biophys. Res. Commun.,@151,@215-221.@1988@@@NIES-19@NIES19
1976@Kamiya, A.@Blue light-induced in vivo absorbance changes and in vitro activation of nitrate reductase in a nitrate-starved Chlorella mutant.@Plant Cell Physiol.,@29,@489-496.@1988@@blue light effect; Chlorella; light-induced absorbancechange; NADH-nitrate reductase@NIES-2162@NIES2162
1977@Mimuro, M., Yamazaki, I., Tamai, N., Katoh, T.@Excitation transfer in phycobilisomes at -196ºC isolated from the cyanobacterium Anabaena variabilis (M-3): Evidence for the plural transfer pathways to the terminal emitters.@Biochim. Biophys. Acta,@973,@153-162.@1989@@@NIES-2093@NIES2093
1978@Kotzabasis, K., Schuering, M., Senger, H.@Occurrence of protochlorophyll and its phototransformation to chlorophyll in mutant C-2A' of Scenedesmus obliquus.@Physiol. Plant.,@75,@221-226.@1989@@green algae; phototransformation; protochlorophyllide; protochlorophyllide reductase; Scenedesmus obliquus@NIES-2280@NIES2280
1979@Ohmori, M., Satoh, Y., Urata, K.@Light-induced accumulation of lactate and succinate in Anabaena cylindrica (Cyanophyta).@Arch. Mikrobiol.,@151,@101-104.@1989@@@NIES-19@NIES19
1980@Ohmori, M.@cAMP in Anabaena cylindrica: Rapid changes in cellular levels in response to changes in extracellular environments.@Plant Cell Physiol.,@30,@911-914.@1989@@Anabaena cylindrica; cAMP; cyanobacteria; membrane potential@NIES-19@NIES19
1981@Kamiya, A.@Effects of blue light and ammonia on nitrogen metabolism in a colorless mutant of Chlorella. @Plant Cell Physiol.,@30,@513-521.@1989@@ammonia effect; blue light effect; Chlorella; glutamine synthetase; nitrate uptake; nitrogen metabolism@NIES-2162@NIES2162
1982@Watanuki, T., Kaise, T., Mineo, H.@Inhibition of Anabaena cylindrica (Cyanophyceae) growth by extracts of water weeds, using the paper disc-agar method.@Jpn. J. Water Treat. Biol.,@26,@1-5.@1990@@@NIES-19@NIES19
1983@Higashiyama, T. & Yamada, T.@Electrophoretic karyotyping and chromosomal gene mapping of Chlorella.@Nucleic Acids Res., @19,@6191-6195.@1991@@@NIES-2189@NIES2189@NIES-2163@NIES2163@NIES-2166@NIES2166@NIES-2171@NIES2171
1984@Shiraiwa, Y., Yokoyama, S., Satoh, A.@pH-dependent regulation of carbonic anhydrase induction and change in photosynthesis during adaptation of Chlorella cells to low CO₂.@Jpn. J. Phycol. (Sôrui),@39,@355-362.@1991@@@NIES-2170@NIES2170
1985@Takeda, H.@Sugar composition of the cell wall and the taxonomy of Chlorella (Chlorophyceae).@J. Phycol.,@27,@224-232.@1991@@anisotropy; cell wall sugar composition; chemotaxonomy; Chlorella; Chlorophyta; classification; glucosamine; rigid wall; ruthenium red staining@NIES-2160@NIES2160@NIES-2170@NIES2170
1986@Sakamoto, T., Murata, N., Ohmori, M.@The concentration of cyclic AMP and adenylate cyclase activity in cyanobacteria.@Plant Cell Physiol.,@32,@581-584.@1991@@adenylate cyclase; cyanobacterium; cyclic AMP; cyclic nucleotide phosphodiesterase@NIES-19@NIES19
1987@Wiese, L., Wiese, W.@On speciation by evolution of gametic incompatibility: a model case in Chlamydomonas.@Am. Nat.,@111,@733-742.@1977@@@NIES-2223@NIES2223
1988@Lucksch, I..@Ernährungsphysiologische Untersuchungen an Chlamydomonadeen.@Beih. Bot. Centralbl.,@50,@64-94.@1932@@@NIES-2206@NIES2206@NIES-2213@NIES2213@NIES-2229@NIES2229
1989@Schulze, D., Robenek, H., McFadden, G. I., Melkonian, M.@Immunolocalization of a Ca²⁺-modulated contractile protein in the flagellar apparatus of green algae: the nucleus-basal body connector. @Eur. J. Cell Biol.,@45,@51-61.@1987@@@NIES-2253@NIES2253
1990@Schoevaert, D., Krishnamswamy, S., Couturier, M., Marano, F.@Ciliary beat and cell motility of Dunaliella: computer analysis of high speed microcinematography.@Biol. Cell, @62,@229-240.@1988@@@NIES-2253@NIES2253
1991@Gowans, C. S.@The conspecificity of Chlamydomonas eugametos and Chlamydomonas moewusii: an experimental approach.@Phycologia,@3,@37-44.@1963@@@NIES-2219@NIES2219
1992@Archibald, P. A.@Trebouxia de Pulmaly (Chlorophyceae, Chlorococcales) and Pseudotrebouxia gen. nov. (Chlorophyceae, Chlorosarcinales).@Phycologia,@14,@125-137.@1975@@@NIES-2183@NIES2183@NIES-2187@NIES2187@NIES-2188@NIES2188@NIES-2186@NIES2186@NIES-2185@NIES2185
1993@Ishida, T., Yokota, A., Sugiyama, J.@Phylogenetic relationships of filamentous cyanobacterial taxa inferred from 16S rRNA sequence divergence.@J. Gen. Appl. Microbiol.,@43,@237-241.@1997@@filamentous cyanobacteria; molecular phylogeny; Oscillatoriales; 16S rRNA@NIES-510@NIES510@NIES-2128@NIES2128@NIES-2118@NIES2118@NIES-208@NIES208@NIES-27@NIES27@NIES-2116@NIES2116@NIES-2119@NIES2119
1994@Komor, E., Cho, B.-H., Kraus, M.@The occurrence of the glucose-inducible transport systems for glucose, proline, and arginine in different species of Chlorella.@Botanica Acta,@101,@321-326.@1988@@Amino acid transport; induction by glucose; Chlorella; classification@NIES-687@NIES687@NIES-2150@NIES2150
1995@Sargent, D. F. & Taylor, C. P. S.@Light-induced inhibition of respiration in DCMU-poisoned Chlorella caused by phytosystem I activity.@Can. J. Bot.,@50,@13-21.@1972@@@NIES-2151@NIES2151
1996@Snell, T. W. & Boyer, E. M.@Thresholds for mictic female production in the rotifer Brachionus plicatilis (muller).@J. Exp. Mar. Biol. Ecol.,@124,@73-85.@1988@@food level; mixis; population density threshold; reproduction; rotifer; sex@NIES-2258@NIES2258
1997@Grotjohann, N. & Kowallik, W.@Influence of blue light on the activity of phosphofructokinase in Chlorella kessleri.@Physiol. Plant.,@75,@43-46.@1989@@blue/UV-photoreceptor; Chlorella kessleri; phosphofructokinase@NIES-2160@NIES2160
1998@Yongmanitchai, W. & Ward, O. P.@Screening of algae for potential alternative sources of eicosapentaenoic acid.@Phytochemistry,@30,@2963-2967.@1991@@algae; Thailand; w-3 fatty acids; linolenic acid; eicosapentaenoic acid; docosahexaenoic acid@NIES-2256@NIES2256@NIES-2258@NIES2258
1999@McKay, R. M. & Gibbs, S. P.@Immunocytochemical localization of ribulose 1,5-bisphosphate carboxylase/oxygenase in light-limited and light-saturated cells of Chlorella pyrenoidosa.@Protoplasma,@149,@31-37.@1989@@pyrenoid; ribulose 1,5-bisphosphate carboxylase/oxygenase; Chlorella pyrenoidosa; immunocytochemistry@NIES-687@NIES687@NIES-2142@NIES2142
2000@Gekeler, W., Grill, E., Winnacker, E.-L., Zenk, M. H.@Algae sequester heavy metals via synthesis of phytochelatin complexes.@Arch. Mikrobiol.,@150,@197-202.@1988@@@NIES-687@NIES687
2001@Huss, V. A. R., Wein, K. H., Kessler, E.@Deoxyribonucleic acid reassociation in the taxonomy of the genus Chlorella.@Arch. Mikrobiol.,@150,@509-511.@1988@@@NIES-2163@NIES2163
2002@Witt, D. & Stackebrandt, E.@Disproving the hypothesis of a common ancestry for the Ochromonas danica chrysoplast and Heliobacterium chlorum.@Arch. Mikrobiol.,@150,@244-248.@1988@@@NIES-2142@NIES2142
2003@Brand, J. J. & Wright, J. N.@Hydrogen production by eukaryotic algae.@Biotech. Bioeng.,@33,@1482-1488.@1989@@@NIES-2190@NIES2190@NIES-2194@NIES2194@NIES-2291@NIES2291@NIES-2169@NIES2169@NIES-2211@NIES2211@NIES-2204@NIES2204@NIES-2201@NIES2201@NIES-2203@NIES2203@NIES-2213@NIES2213@NIES-2151@NIES2151@NIES-2219@NIES2219@NIES-2202@NIES2202@NIES-2279@NIES2279
2004@Cannell, R. J. P., Owsianka, A. M., Walker, J. M.@Results of a large-scale screening programme to detect antibacterial activity from freshwater algae.@Br. Phycol. J.,@23,@41-44.@1988@@@NIES-686@NIES686@NIES-2287@NIES2287
2005@Mcmillan, R.@Morphogenesis and polymorphism of Ankistrodesmus spp.@J. Gen. Microbiol.,@17,@658-677.@1957@@@NIES-2190@NIES2190@NIES-2194@NIES2194@NIES-2195@NIES2195
2006@Belmans, D. & Laere, A. V.@Effect of ionophores on the ATP-pool and glycerol content in cells of the halotolerant green alga Dunaliella tertiolecta.@J. Gen. Microbiol.,@134,@2261-2268.@1988@@@NIES-2258@NIES2258
2007@Lee, Y.-K. & Tan, H.-M.@Interphylum protoplast fusion and genetic recombination of the algae Porphyridium cruentum and Dunaliella spp.@J. Gen. Microbiol.,@134,@635-641.@1988@@@NIES-2257@NIES2257
2008@Van Winkle-Swift, K. P., Aliaga, G. R., Pommerville, J. C.@Haploid spore formation following arrested cell fusion in Chlamydomonas (Chlorophyta).@J. Phycol.,@23,@414-427.@1987@@cell fusion; Chlamydomonas monoica; germination; karyogamy; maturation; mutant; nuclear migration; sporulation; zygospore@NIES-2229@NIES2229
2009@Coleman, A. W.@The autofluorescent flagellum: a new phylogenetic enigma.@J. Phycol.,@24,@118-120.@1988@@autofluorescence; Chrysophyceae; flagellum; fluorescence; heterokont; Ochromonas; photoreceptor; Prymnesium@NIES-2144@NIES2144@NIES-2142@NIES2142
2010@Becker, B. & Melkonian, M.@2-keto-sugar acids in green flagellates: A chemical marker for prasinophycean scales.@J. Phycol.,@27,@498-504.@1991@@cell wall composition; Chlorophyta; 2-keto-sugar acids; Prasinophyceae; scale composition@NIES-2253@NIES2253
2011@Fawley, M. W.@Disjunct distribution of the xanthophyll loroxanthin in the green algae (Chlorophyta).@J. Phycol.,@27,@544-548.@1991@@carotenoids; Chlorophyta; high-performance liquid chromatography; loroxanthin; xanthophylls@NIES-2285@NIES2285
2012@Lee, Y.-K. & Soh, C.-W.@Accumulation of astaxanthin in Haematococcus lacustris (Chlorophyta).@J. Phycol.,@27,@575-577.@1991@@astaxanthin; chemostat cultures; chlorophyta; Haematococcus lacustris; photon flux density; specific growth rate@NIES-2264@NIES2264
2013@Kessler, E. & Huss, V. A. R.@Comparative physiology and biochemistry and taxonomic assignment of the Chlorella (Chlorophyceae) strains of the Culture Collection of the University of Texas at Austin.@J. Phycol.,@28,@550-553.@1992@@chemotaxonomy; Chlorella; Chlorophyta; UTEX culture collection; utilization for research and biotechnology@NIES-687@NIES687@NIES-2150@NIES2150@NIES-2160@NIES2160@NIES-2169@NIES2169@NIES-686@NIES686@NIES-2163@NIES2163@NIES-2176@NIES2176@NIES-2151@NIES2151@NIES-2175@NIES2175
2014@Goldstein, M.@Speciation and mating behavior in Eudorina.@J. Protozool.,@11,@317-344.@1964@@@NIES-735@NIES735
2015@Iwai, S., Hurukawa, T., Yamane, K., Kawasaki, K., Osakada, K.@Micro-algae cultivation and algae-oil fuel production by enrich CO₂ introduction from diesel co-generation system.@Transactions of the JSME,@83,@16-00389 (article ID) (in Japanese with English summary).@2017@@Micro-algae oil; Tri-generation system; Biofuel; CO₂@NIES-119@NIES119
2016@Ohmori, K., Hirose, M., Ohmori, M.@An increase in the intracellular concentration of cAMP triggers formation of an algal mat by the cyanobacterium Spirulina platensis.@Plant Cell Physiol.,@34,@169-171.@1993@@cyanobacteria (blue-green algae); cyclic AMP; motility; Spirulina platensis@NIES-39@NIES39
2017@Unno, K., Ando, I., Hagima, N., Yokogaki, S.@Growth delay and intracellular changes in Chlorella ellipsoidea C-27 as a result of deuteration.@Plant Cell Physiol.,@33,@963-969.@1992@@Chlorella ellipsoidea; deuterium oxide; growth delay; isotope effect; ultrastractural changes@NIES-2170@NIES2170
2018@Dionisio-Sese, M. L., Miyachi, S.@The effect of sodium chloride on carbonic anhydrase activity in marine microalgae.@J. Phycol.,@28,@619-624.@1992@@carbonic anhydrase; Cl- activation; Cl- inhibition; marine microalgae; NaCl effect; photosynthesis@NIES-2168@NIES2168
2019@Ohta, S., Chang, T., Aozasa, O., Kondo, M., Miyata, H.@Sustained production of arachidonic and eicosapentaenoic acids by the red alga Porphyridium purpureum cultured in a light/dark cycle.@J. Ferment. Bioengin.,@74,@398-402.@1992@@@NIES-2256@NIES2256@NIES-2168@NIES2168@NIES-2140@NIES2140
2020@Kobayashi, M., Hatta, K., Sugai, M.@Endopolyploidy in Chlorella.@Arch. Mikrobiol.,@146,@309-314.@1987@@@NIES-2170@NIES2170
2021@Tsubo, Y. & Matsuda, Y.@Transmission of chloroplast genes in crosses between Chlamydomonas reinhardtii diploids: Correlation with chloroplast nucleoid behavior in young zygotes.@Curr. Genet.,@8,@223-229.@1984@@Chlamydomonas; tetraploid; chloroplast gene transmission; DAPI staining@NIES-2235@NIES2235@NIES-2239@NIES2239
2022@Isono, T. & Katoh, T.@Cylindrical phycobilisomes from a blue-green alga, Anabaena variabilis.@Plant Cell Physiol.,@23,@1347-1355.@1982@@blue-green alga (Anabaena variabilis); electron micrograph; cylindrical phycobilisomes; phycobilisomes; protein assembly@NIES-2093@NIES2093
2023@Matsuda, Y., Shimada, T., Sakamoto, Y.@Ammonium ions control gametic differentiation and dedifferentiation in Chlamydomonas reinhardtii.@Plant Cell Physiol.,@33,@909-914.@1992@@cell cycle progression; Chlamydomonas reinhardtii; NH4+ starvation; organic nitrogen compounds; sexual reproduction@NIES-2238@NIES2238
2024@Lee, T.-Y., Gotoh, N., Niki, E., Yokoyama, K., Tsuzuki, M., Takeuchi, T., Karube, I.@Chemilluminescence detection of red tide phytoplankton Chattonella marina.@Anal. Chem.,@67,@225-228.@1995@@@NIES-2138@NIES2138
2025@Tatsuzawa, H. & Takizawa, E.@Fatty acid and lipid composition of the acidophilic green alga Chlamydomonas sp.@J. Phycol.,@32,@598-601.@1996@@acidophilic algae; Chlamydomonas sp.; Chlamydomonas reinhardtii; Chlorophyta; culture conditions; fatty acids; lipids@NIES-3284@NIES3284
2026@Suzuki, T., Imai, M., Ishida, M.@Influence of environmental factors on phosphorous content in the marine microalga Dunaliella.@Toxicol. Environ. Chem.,@64,@173-181.@1997@@Dunaliella; photosynthesis; polyphosphates; response surface model@NIES-2254@NIES2254@NIES-2258@NIES2258@NIES-2257@NIES2257
2027@Suzuki, T., Matsuo, T., Ohtaguchi, K., Koide, K.@Gas-sparged bioreactors for CO₂ fixation by Dunaliella tertiolecta.@J. Chem. Tech. Biotechnol.,@62,@351-358.@1995@@@NIES-2258@NIES2258
2028@Shimba, S., Unno, K., Okada, S.@Characteristics of the photosynthetic metabolism of carbon in deuterated Chlorella ellipsoidea C-27.@Plant Cell Physiol.,@34,@255-262.@1993@@Chlorella ellipsoidea; deuterium; isotope effect; photosynthetic metabolism of carbon@NIES-2170@NIES2170
2029@Koga, T., Arasaki, T., Tanaka, T., Ueda, S.@Studies on cell fusion of microalgae, part 2 protoplast induction and regeneration of Chlorella.@Annu. Rep. Kumamoto Kogyo Univ.,@17,@279-286.@1991@@@NIES-685@NIES685@NIES-2163@NIES2163@NIES-2189@NIES2189
2030@Koga, T., Arasaki, T., Tanaka, T., Ueda, S.@Studies on cell fusion of microalgae, part 3 interspecific cell fusion of Chlorella.@Annu. Rep. Kumamoto Kogyo Univ.,@17,@287-293.@1991@@@NIES-685@NIES685@NIES-2163@NIES2163@NIES-2189@NIES2189
2031@Kimpel, D. L., Togasaki, R. K., Miyachi, S.@Carbonic anhydrase in Chlamydomonas reinhardtii I. Localization.@Plant Cell Physiol.,@24,@255-259.@1983@@carbonic anhydrase; cell wall-less mutant; Chyamydomonas reinhardtii; periplasm; wall lysing enzyme@NIES-2237@NIES2237@NIES-2238@NIES2238
2032@Spencer, K. G., Kimpel, D. L., Fisher, M. L., Togasaki, R. K., Miyachi, S.@Carbonic anhydrase in Chlamydomonas reinhardtii II. Requirements for carbonic anhydrase induction.@Plant Cell Physiol.,@24,@301-304.@1983@@carbonic anhydrase; Chlamydomonas reinhardtii; enzyme induction; photosynthesis; photosynthetic mutants@NIES-2238@NIES2238
2033@Hatano, S., Joh, T., Miyamoto, T., Yoshimoto, M.@Preparation of protoplasts from Chlorella ellipsoidea C-27.@Plant Cell Physiol.,@33,@651-655.@1992@@cell wall-lytic enzyme; chitosanase; Chlorella ellipsoidea C-27; protoplast@NIES-2170@NIES2170
2034@Toda, H., Yazawa, M., Yagi, K.@Amino acid sequence of calmodulin from Euglena gracilis.@Eur. J. Biochem.,@205,@653-660.@1992@@@NIES-48@NIES48
2035@Hirano, M., Mori, H., Miura, Y., Matsunaga, N., Nakamura, N., Matsunaga, T.@γ-ｌinolenic acid production by microalgae.@Appl. Biochem. Biotechnol.,@24/25,@183-191.@1990@@g-linolenic acid; Spirulina platensis; green algae; lipid; marine microalgae@NIES-39@NIES39
2036@Furihata, T., Pomprasirt, S., Sakurai, H.@Characteristics of sulfite transport by Chlorella vulgaris.@Plant Cell Physiol.,@38,@398-403.@1997@@Chlorella; plasma membrane; sulfite; transport@NIES-2160@NIES2160
2037@Shiraiwa, Y., Goyal, A., Tolbert, N. E.@Alkalization of the medium by unicellular green algae during uptake of dissolved inorganic carbon.@Plant Cell Physiol.,@34,@649-657.@1993@@alkalization; dissolved inorganic carbon concentrating mechanism; photosynthesis@NIES-2160@NIES2160
2038@Suzuki, T., Ohtaguchi, K., Koide, K.@Cell growth inhibition in mouse leukemia L5178Y cells in vitro by crude extracts from freshwater blue-green algae.@J. Chem. Eng. Japan,@26,@463-464.@1993@@@NIES-2116@NIES2116@NIES-3277@NIES3277
2039@Ohta, N., Nagashima, H., Kawano, S., Kuroiwa, T.@Isolation of the chloroplast DNA and the sequence of the trnK gene from Cyanidium caldarium strain RK-1.@Plant Cell Physiol.,@33,@657-661.@1992@@chloroplast DNA; Cyanidium caldarium; transfer RNA-lysine@NIES-250@NIES250@NIES-2137@NIES2137
2040@Takeda, H.@Chemical composition of cell walls as a taxonomical marker.@J. Plant Res.,@106,@195-200.@1993@@anisotropy; cell wall sugar composition; chemotaxonomy; Chlorella; classification; lytic enzyme; rigid wall; ruthenium red@NIES-2160@NIES2160@NIES-2170@NIES2170
2041@Hamana, K., Matsuzaki, S., Niitsu, M., Samejima, K., Nagashima, H.@Polyamines of unicellular thermoacidophilic red alga Cyanidium caldarium.@Phytochemistry,@29,@377-380.@1990@@Cyanidium caldarium; Rhodophyta; red algae; polyamines; chemotaxonomy@NIES-2137@NIES2137@NIES-3891@NIES3891@NIES-250@NIES250
2042@Nagashima, H. & Fukuda, I.@Floridosides in unicellular hot spring algae.@Phytochemistry,@22,@1949-1951.@1983@@Cyanidium caldarium; Chroococcidiopsis sp.; hot spring algae; chemotaxonomy; low MW carbohydrates; floridoside; iso-floridoside; autotroph; heterotroph@NIES-2137@NIES2137@NIES-3891@NIES3891@NIES-250@NIES250
2043@Shiraiwa, Y. & Miyachi, S.@Role of carbonic anhydrase in photosynthesis of blue-green alga (cyanobacterium) Anabaena variabilis ATCC 29413.@Plant Cell Physiol., @26,@109-116.@1985@@Anabaena variabilis ATCC 29413; carbonic anhydrase; CO2 effect; CO2 transport; cyanobacterium; photosynthesis@NIES-2095@NIES2095
2044@Nihei, T.@A phosphorylative process, accompanied by photochemical liberation of oxygen, occurring at the stage of nuclear division in Chlorella cell. II.@J. Biochem.,@44,@389-396.@1957@@@NIES-2170@NIES2170
2045@Miyachi, S., Oh-hama, T., Ogasawara, N.@Effects of flash light of different wagelengths on dark ¹⁴CO₂-fixation in Chlorella cells.@In Comparative Biochemistry and Biophysics of Photosynthesis, Eds. by Shibata, K. et al., University of Tokyo Press, Tokyo,@@pp. 400-407. @1968@@@NIES-2170@NIES2170
2046@Hattori, A.@Studies on the metabolism of urea and other nitrogenous compounds in Chlorella ellipsoidea.@J. Biochem.,@44,@253-273.@1957@@@NIES-2170@NIES2170
2047@Miyachi, S.@Metabolism of inorganic polyphosphates in growing Chlorella cells.@In Photosynthes Mechanisms of Green Plants, Eds. by Shibata, K. et al., National Academy of Sciences - National Research Council,@1145,@pp. 688-697. @1963@@@NIES-2170@NIES2170
2048@Hamana, K., Miyagawa, K., Matsuzaki, S.@Occurrence of syn-homospermidine as the major polyamine in nitrogen-fixing cyanobacteria.@Biochem. Biophys. Res. Commun.,@112,@606-613.@1983@@@NIES-2129@NIES2129@NIES-37@NIES37@NIES-3275@NIES3275@NIES-19@NIES19@NIES-39@NIES39
2049@Suzuki, T., Ezure, T., Ishida, M.@In-vitro antitumour evaluation of extracts from cyanobacteria Anabaena.@J. Pharm. Pharmacol.,@50,@136 (Supplement).@1998@@@NIES-2094@NIES2094@NIES-2093@NIES2093@NIES-19@NIES19
2050@Hanagata, N., Karube, I., Chihara, M., Silva, P. C.@Reconsideration of the taxonomy of ellipsoidal species of Chlorella (Trebouxiophyceae, Chlorophyta), with establishment of Watanabea gen. nov.@Phycol. Res.,@46,@221-229.@1998@@Chlorella saccharophila; ellipsoidal species of Chlorella; pyrenoid-lacking Chlorella-like algae: Watanabea gen. et sp. nov.@NIES-2189@NIES2189
2051@Honda, D., Yokota, A., Sugiyama, J.@Detection of seven major evolutionary lineages in cyanobacteria based on the 16S rRNA gene sequence analysis with new sequences of five marine Synechococcus strains.@J. Mol. Evol.,@48,@723-739.@1999@@cyanobacteria; Synechococcus; phylogeny; ribosomal RNA; maximum-likelihood method; neighbor-joining method; rate homo- and heterogeneous models@NIES-510@NIES510@NIES-27@NIES27@NIES-2118@NIES2118@NIES-208@NIES208@NIES-2116@NIES2116@NIES-2119@NIES2119
2052@Suda, K., Tanji, K., Hori, K., Unno, H.@Evidence for a novel Chlorella virus -encoded alginate lyase.@FEMS Microbiol. Lett.,@180,@45-53.@1999@@Chlorella; virus; alginate lyase; lysis@NIES-686@NIES686@NIES-2170@NIES2170@NIES-843@NIES843
2053@Yamamoto, M., Nozaki, H., Kawano, S.@Evolutionary relationships among multiple modes of cell division in the genus Nannochloris (Chlorophyta) revealed by genome size, actin gene multiplicity, and phylogeny.@J. Phycol.,@37,@106-120.@2001@@actin gene; autosporulation; binary fission; budding; cell division; Chlorophyta; DNA content; genome size; phylogeny; Nannochloris@NIES-2160@NIES2160@NIES-4016@NIES4016
2054@Ishida, T., Watanabe, M. M., Sugiyama, J., Yokota, A.@Evidence for polyphyletic origin of the members of the orders of Oscillatoriales and Pleurocapsales as determined by 16S rDNA analysis.@FEMS Microbiol. Lett.,@201,@79-82.@2001@@cyanobacterium; Pleurocapsales; 16S rDNA; phylogeny@NIES-510@NIES510@NIES-2128@NIES2128@NIES-2118@NIES2118@NIES-208@NIES208@NIES-27@NIES27@NIES-2116@NIES2116@NIES-2119@NIES2119
2055@Yamamoto, M., Nozaki, H., Miyazawa, Y., Koide, T., Kawano, S.@Relationship between presence of a mother cell wall and speciation in the unicellular microalga Nannochloris (Chlorophyta).@J. Phycol.,@39,@172-184.@2003@@18S rRNA; actin gene; autosporulation; binary fission; budding; Chlorella; Chlorophyta; molecular phylogeny; TBR, tree bisection reconnection@NIES-2160@NIES2160@NIES-2169@NIES2169@NIES-2186@NIES2186@NIES-2173@NIES2173@NIES-4016@NIES4016
2056@Takaichi, S., Mochimaru, M., Maoka, T., Katoh, H.@Myxol and 4-ketomyxol 2'-fucosides, not rhamnosides, from Anabaena sp. PCC 7120 and Nostoc punctiforme PCC 73102, and proposal for the biosynthetic pathway of carotenoids.@Plant Cell Physiol.,@46,@497-504.@2005@@Anabaena; carotenogenesis; carotenoid; 4-ketomyxol 2'-fucoside; Nostoc@NIES-2110@NIES2110@NIES-2111@NIES2111@NIES-2109@NIES2109
2057@Katoh, H., Shiga, S., Nakahira, Y., Ohmori, M.@Isolation and characterization of drought-tolerant cyanobacterium Nostoc sp. HK-01.@Microbes Environ.,@18,@82-88.@2003@@cyanobacterium; drought-tolerance; hormogonia; Nostoc@NIES-2109@NIES2109
2058@Kato, S., Sakayama, H., Sano, S., Kasai, F., Watanabe, M. M., Tanaka, J., Nozaki, H.@Morphological variation and intraspecific phylogeny of the ubiquitous species Chara braunii (Charales, Charophyceae) in Japan.@Phycologia,@47,@191-202.@2008@@aquatic habitat; Chara braunii; Charales; Charophyceae; intergenic spacer region; intraspecific phylogeny; morphological variation, rbcL gene@NIES-1586@NIES1586@NIES-1587@NIES1587@NIES-1588@NIES1588@NIES-1589@NIES1589@NIES-1590@NIES1590@NIES-1591@NIES1591@NIES-1604@NIES1604
2059@Sakayama, H.@Taxonomy of Nitella (Charales, Charophyceae) based on comparative morphology of oospores and multiple DNA marker phylogeny using cultured material. @Phycol. Res.,@56,@202-215.@2008@@Charales; Charophyceae; chloroplast DNA; morphology; Nitella; nuclear DNA; oospores; scanning electron microscopy; taxonomy; Tieffallenia@NIES-1704@NIES1704@NIES-1705@NIES1705@NIES-1706@NIES1706@NIES-1611@NIES1611@NIES-1628@NIES1628@NIES-1634@NIES1634
2060@Sakayama, H., Arai, S., Nozaki. H., Kasai, F., Watanabe, M. M.@Morphology, molecular phylogeny and taxonomy of Nitella comptonii (Charales, Characeae).@Phycologia,@45,@417-421.@2006@@atpB gene; Charales; Charophyceae; internal transcribed spacer region; Japanese taxa; morphology; Nitella comptonii; oospores; psaB gene; rbcL gene; scanning electron microscopy; taxonomy@NIES-1704@NIES1704@NIES-1705@NIES1705@NIES-1706@NIES1706
2061@Sakayama, H., Hara Y., Nozaki, H.@Taxonomic re-examination of six species of Nitella (Charales, Charophyceae) from Asia, and phylogenetic relationships within the genus based on rbcL and atpB gene sequences.@Phycologia,@43,@91-104.@2004@Medium (SWC-1, SWC-2)@@NIES-1634@NIES1634
2062@Sakayama, H., Miyaji, K., Nagumo, T., Kato, M., Hara Y., Nozaki, H.@Taxonomic re-examination of 17 species of Nitella subgenus Tieffallenia (Charales, Charophyceae) based on internal morphology of the oospore wall and multiple DNA marker sequences.@J. Phycol.,@41,@195-211.@2005@@Charales; Charophyceae; chloroplast DNA; morphology; Nitella; nuclear DNA; oospores; scanning electron microscopy; taxonomy; Tieffallenia@NIES-1628@NIES1628
2063@Alamsjah, M. A., Ishibe, K., Kim, D., Yamaguchi, K., Ishibashi, F., Fujita, Y., Oda, T.@Selective toxic effects of polyunsaturated fatty acids derived from Ulva fasciata on red tide phytoplankter species.@Biosci. Biotechnol. Biochem.,@71,@265-268.@2007@@α-linolenic acid; linoleic acid; Ulva fasciata; red tide phytoplankter@NIES-3@NIES3
2064@Cattolico, R. A., Jacobs, M. A., Zhou, Y., Chang, J., Duplessis, M., Lybrand, T., McKay, J., Ong, H. C., Sims, E., Rocap, G.@Chloroplast genome sequencing analysis of Heterosigma akashiwo CCMP452 (West Atlantic) and NIES293 (West Pacific) strains. @BMC Genomics,@9,@211-230.@2008@@@NIES-293@NIES293
2065@Hamaji, T., Ferris, P. J., Coleman, A.W., Waffenschmidt, S., Takahashi, F., Nishii, I., Nozaki, H.@Identification of the minus-dominance gene ortholog in the mating-type locus of Gonium pectorale.@Genetics,@178,@283-294.@2008@@@NIES-1711@NIES1711@NIES-1710@NIES1710
2066@Kaneko, T., Nakajima, N., Okamoto, S., Suzuki, I., Tanabe, Y., Tamaoki, M., Nakamura, Y., Kasai, F., Watanabe, A., Kawashima, K., Kishida, Y., Ono, A., Shimizu, Y., Takahashi, C., Minami, C., Fujishiro, T., Kohara, M., Katoh, M., Nakazaki, N., Nakayama, S., Yamada, M., Tabata, S., Watanabe, M. M.@Complete genomic structure of the bloom-forming toxic cyanobacterium Microcystis aeruginosa NIES-843. @DNA Res.,@14,@247-256.@2007@@@NIES-843@NIES843
2067@Tanabe, Y., Kasai, F., Watanabe, M. M.@Multilocus sequence typing (MLST) reveals high genetic diversity and clonal population structure of the toxic cyanobacterium Microcystis aeruginosa.@Microbiology,@153,@3695-3703.@2007@@@NIES-1050@NIES1050@NIES-1051@NIES1051@NIES-1052@NIES1052@NIES-1053@NIES1053@NIES-1056@NIES1056@NIES-1057@NIES1057@NIES-1059@NIES1059@NIES-1060@NIES1060@NIES-1065@NIES1065@NIES-1066@NIES1066@NIES-1075@NIES1075@NIES-1093@NIES1093@NIES-1094@NIES1094@NIES-1096@NIES1096@NIES-1098@NIES1098@NIES-1100@NIES1100@NIES-1101@NIES1101@NIES-1103@NIES1103@NIES-1104@NIES1104@NIES-1106@NIES1106@NIES-1107@NIES1107@NIES-1125@NIES1125@NIES-1127@NIES1127@NIES-1128@NIES1128@NIES-1129@NIES1129@NIES-1130@NIES1130@NIES-1134@NIES1134@NIES-1135@NIES1135@NIES-1136@NIES1136@NIES-1137@NIES1137@NIES-1138@NIES1138@NIES-1140@NIES1140@NIES-1144@NIES1144@NIES-1145@NIES1145@NIES-1146@NIES1146@NIES-1147@NIES1147@NIES-1148@NIES1148@NIES-1149@NIES1149@NIES-1151@NIES1151@NIES-1152@NIES1152@NIES-1153@NIES1153@NIES-1155@NIES1155@NIES-1156@NIES1156@NIES-1157@NIES1157@NIES-1159@NIES1159@NIES-1160@NIES1160@NIES-1161@NIES1161@NIES-1162@NIES1162@NIES-1163@NIES1163@NIES-1170@NIES1170@NIES-1171@NIES1171@NIES-1172@NIES1172@NIES-1216@NIES1216@NIES-1217@NIES1217@NIES-1218@NIES1218@NIES-1220@NIES1220@NIES-1221@NIES1221@NIES-1223@NIES1223@NIES-1224@NIES1224@NIES-1225@NIES1225@NIES-1227@NIES1227@NIES-1228@NIES1228@NIES-1229@NIES1229@NIES-1231@NIES1231@NIES-1232@NIES1232@NIES-1233@NIES1233@NIES-1234@NIES1234@NIES-1235@NIES1235@NIES-1236@NIES1236@NIES-1237@NIES1237@NIES-1238@NIES1238@NIES-1239@NIES1239@NIES-1240@NIES1240@NIES-1241@NIES1241@NIES-1242@NIES1242@NIES-1243@NIES1243@NIES-1244@NIES1244@NIES-1245@NIES1245@NIES-1251@NIES1251@NIES-1252@NIES1252@NIES-1253@NIES1253@NIES-1254@NIES1254@NIES-105@NIES105@NIES-1090@NIES1090@NIES-1068@NIES1068@NIES-1061@NIES1061@NIES-106@NIES106@NIES-1092@NIES1092@NIES-108@NIES108@NIES-109@NIES109@NIES-1076@NIES1076@NIES-1133@NIES1133@NIES-1115@NIES1115@NIES-1143@NIES1143@NIES-1164@NIES1164@NIES-110@NIES110@NIES-478@NIES478@NIES-100@NIES100@NIES-299@NIES299@NIES-1226@NIES1226@NIES-1105@NIES1105@NIES-1058@NIES1058@NIES-1091@NIES1091@NIES-1070@NIES1070@NIES-111@NIES111@NIES-107@NIES107@NIES-112@NIES112@NIES-1213@NIES1213@NIES-1214@NIES1214@NIES-1215@NIES1215@NIES-1113@NIES1113@NIES-1108@NIES1108@NIES-1102@NIES1102@NIES-1097@NIES1097@NIES-1126@NIES1126@NIES-1067@NIES1067@NIES-1139@NIES1139@NIES-1141@NIES1141@NIES-1142@NIES1142@NIES-1150@NIES1150@NIES-1219@NIES1219@NIES-1222@NIES1222@NIES-1230@NIES1230@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1069@NIES1069@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1055@NIES1055@NIES-1131@NIES1131@NIES-1054@NIES1054@NIES-44@NIES44@NIES-1122@NIES1122@NIES-88@NIES88@NIES-843@NIES843@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-1124@NIES1124@NIES-1209@NIES1209@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1211@NIES1211@NIES-98@NIES98@NIES-102@NIES102@NIES-91@NIES91@NIES-1123@NIES1123@NIES-1062@NIES1062@NIES-933@NIES933@NIES-901@NIES901@NIES-1132@NIES1132@NIES-1114@NIES1114@NIES-298@NIES298@NIES-101@NIES101@NIES-103@NIES103@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
2068@Kai, A., Yoshii, Y., Nakayama, T., Inouye, I.@Aurearenophyceae classis nova, a new class of Heterokontophyta based on a new marine unicellular alga Aurearena cruciata gen. et sp. nov. inhabiting sandy beaches.@Protist,@159,@435-457.@2008@@flagellar apparatus; Phaeophyceae; Phaeothamniophyceae; pigment composition; Xanthophyceae; phylogeny@NIES-1863@NIES1863@NIES-1864@NIES1864@NIES-1865@NIES1865@NIES-1862@NIES1862
2069@Hoef-Emden, K., Melkonian, M.@Revision of the genus Cryptomonas (Cryptophyceae): a combination of molecular phylogeny and morphology provides insights into a long-hidden dimorphism.@Protist,@154,@371-409.@2003@@@NIES-279@NIES279@NIES-276@NIES276@NIES-274@NIES274
2070@Nagao, M., Matsui, K., Uemura, M.@Klebsormidium flaccidum, a charophycean green alga, exhibits cold acclimation that is closely associated with compatible solute accumulation and ultrastructural changes.@Plant Cell Environ.,@31,@872-885.@2008@@amino acid; Charophyceae; freezing tolerance; osmotic strength; soluble sugar; ultrastructure@NIES-2408@NIES2408
2071@Nagao, M. & Uemura, M.@Cold acclimation of green alga (Charophyceae) Klebsormidium flaccidum phylogenetically related to land plants: freezing tolerance, cell structure and compatible solute composition.@Plant Cell Physiol.,@47, Suppl.,@223.@2006@@@NIES-2408@NIES2408
2072@Nagao, M. & Uemura, M.@Isolation of sucrose phosphate and glutamate decarboxylase genes of a green alga Klebsormidium flaccidum associated with cold acclimation.@Plant Cell Physiol.,@48, Suppl.,@237.@2007@@@NIES-2408@NIES2408
2073@Nakada, T. & Nozaki, H.@Taxonomic study of two new genera of fusiform green flagellates, Tabris gen. nov. and Hamakko gen. nov. (Volvocales, Chlorophyceae).@J. Phycol., @45,@482-492.@2009@@Chlorogonium; Hamakko gen. nov.; molecular phylogeny; Tabris gen. nov.; taxonomy; ultrastructure; Volvocales@NIES-4125@NIES4125@NIES-1849@NIES1849@NIES-2295@NIES2295@NIES-748@NIES748@NIES-752@NIES752@NIES-760@NIES760@NIES-1358@NIES1358@NIES-1359@NIES1359@NIES-1850@NIES1850@NIES-1869@NIES1869@NIES-2293@NIES2293@NIES-2294@NIES2294@NIES-122@NIES122@NIES-637@NIES637@NIES-968@NIES968
2074@Yamano, T., Miura, K., Fukuzawa, H.@Expression analysis of genes associated with the induction of the carbon-concentrating mechanism in Chlamydomonas reinhardtii.@Plant Physiol.,@147,@340-354.@2008@@@NIES-2235@NIES2235
2075@Kajikawa, M., Yamato, K. T., Kohzu, Y., Shoji, S., Sakai, Y., Fukuzawa, H.@A front-end desaturase from the green alga Chlamydomonas reinhardtii produces pinolenic and coniferonic acids by ω13 desaturation in methylotrophic yeast and tobacco.@Plant Cell Physiol.,@47,@64-73.@2006@@Chlamydomonas reinhardtii; Δ5-unsaturated bis-methylene-interrupted fatty acids; fatty acid desaturase; Pichia pastoris; tobacco plant@NIES-2235@NIES2235
2076@Yoshioka, S., Taniguchi, F., Miura, K., Inoue, T., Yamano, T., Fukuzawa, H.@The novel Myb transcription factor LCR1 regulates the CO₂-responsive gene Cah1, encoding a periplasmic carbonic anhydrase in Chlamydomonas reinhardtii.@Plant Cell,@16,@1466-1477.@2004@@@NIES-2235@NIES2235
2077@Miura, K., Yamano, T., Yoshioka, S., Kohinata, T., Inoue, Y., Taniguchi, F., Asamizu, E., Nakamura, Y., Tabata, S., Yamato, K. T., Ohyama, K., Fukuzawa, H.@Expression profiling-based identification of CO₂-responsive genes regulated by CCM1 controlling a carbon-concentrating mechanism in Chlamydomonas reinhardtii.@Plant Physiol.,@135,@1595-1607.@2004@@@NIES-2235@NIES2235
2078@Asamizu, E., Nakamura, Y., Miura, K., Fukuzawa, H., Fujiwara, S., Hirono, M., Iwamoto, K., Matsuda, Y., Minagawa, J., Shimogawara, K., Takahashi, Y., Tabata, S.@Establishment of publicly available cDNA material and information resource of Chlamydomonas reinhardtii (Chlorophyta), to facilitate gene function analysis.@Phycologia,@43,@722-726.@2004@@@NIES-2235@NIES2235
2079@Abe, J., Kubo, T., Takagi, Y., Saito, T., Miura, K., Fukuzawa, H., Matsuda, Y.@The transcriptional program of synchronous gametogenesis in Chlamydomonas reinhardtii.@Curr. Genet.,@46,@304-315.@2004@@@NIES-2235@NIES2235
2080@Kubo, T., Saito, T., Fukuzawa, H., Matsuda, Y.@Two tandemly-located matrix metalloprotease genes with different expression patterns in the Chlamydomonas sexual cell cycle.@Curr. Genet.,@40,@136-143.@2001@@cell wall degradation; Chlamydomonas reinhardtii; gametolysin; zygote-specific gene@NIES-2235@NIES2235
2081@Asamizu, E., Miura, K., Kucho, K., Inoue, Y., Fukuzawa, H., Ohyama, K., Nakamura, Y., Tabata, S.@Generation of expressed sequence tags from low-CO₂ and high-CO₂ adapted cells of Chlamydomonas reinhardtii.@DNA Res.,@7,@305-307.@2000@@Chlamydomonas reinhardtii; cDNA; EST; CO2 stress@NIES-2235@NIES2235
2082@Asamizu, E., Nakamura, Y., Sato, S., Fukuzawa, H., Tabata, S.@A large scale structure analysis of cDNAs in a unicellular green alga, Chlamydomonas reinhardtii. I. Generation of 3433 non-redundant expressed sequence tags.@DNA Res.,@6,@369-373.@1999@@green alga; Chlamydomonas reinhardtii; cDNA; EST; normalized library; similarity search@NIES-2235@NIES2235
2083@Tachiki, A., Fukuzawa, H., Miyachi, S.@Characterization of carbonic anhydrase isozyme CA2, which is the CAH2 gene product, in Chlamydomonas reinhardtii.@Biosci. Biotechnol. Biochem.,@56,@794-798.@1992@@@NIES-2235@NIES2235
2084@Fukuzawa, H., Ishida, S., Miyachi, S.@cDNA cloning and gene expression of carbonic anhydrase in Chlamydomonas reinhardtii.@Can. J. Bot.,@69, @1088-1096.@1991@@photosynthesis; light regulation; zinc; CO2-concentrating mechanism; intracellular processing@NIES-2235@NIES2235
2085@Fujiwara, S., Fukuzawa, H., Tachiki, A., Miyachi, S.@Structure and differential expression of two genes encoding carbonic anhydrase in Chlamydomonas reinhardtii.@Proc. Nati. Acad. Sci. U. S. A.,@87,@9779-9783.@1990@@@NIES-2235@NIES2235
2086@Kamo, T., Shimogawara, K., Fukuzawa, H., Muto, S., Miyachi, S.@Subunit constitution of carbonic anhydrase from Chlamydomonas reinhardtii.@Eur. J. Biochem.,@192, @557-562.@1990@@@NIES-2235@NIES2235
2087@Dionisio-Sese, M. L., Fukuzawa, H., Miyachi, S.@Light-induced carbonic anhydrase expression in Chlamydomonas reinhardtii.@Plant Physiol.,@94,@1103-1110.@1990@@@NIES-2235@NIES2235
2088@Kubo, T., Abe, J.,  Saito, T., Matsuda, Y.@Genealogical relationships among laboratory strains of Chlamydomonas reinhardtii as inferred from matrix metalloprotease genes.@Curr. Genet.,@41,@115-122.@2002@@Chlamydomonas reinhardtii; Chlamydomonas smithii; matrix metalloprotease genes; molecular phylogeny@NIES-2235@NIES2235
2089@Sakayama, H., Hara, Y., Arai, S., Sato, H., Nozaki, H.@Phylogenetic analyses of Nitella subgenus Tieffallenia (Charales, Charophyceae) using nuclear ribosomal DNA internal transcribed spacer sequences.@Phycologia,@43,@672-681.@2004@@@NIES-1628@NIES1628
2090@Yoshida, M., Noël, M.-H., Nakayama, T., Naganuma, T., Inouye, I.@A haptophyte bearing siliceous scales: ultrastructure and phylogenetic position of Hyalolithus neolepis gen. et sp. nov. (Prymnesiophyceae, Haptophyta).@Protist,@157,@213-234.@2006@@biomineralization; silica; Prymnesium; Chrysochromulina; 18S rDNA; rbcL@NIES-1393@NIES1393
2091@Ha, J. H., Hidaka, T., Tsuno, H.@Quantification of toxic Microcystis and evolution of its dominance ratio in blooms using real-time PCR. @Environ. Sci. Technol., @43, @812-818.@2009@@@NIES-102@NIES102
2092@Sato, Y., Ito, A., Tate, N., Sasaki, A., Aizawa, J., Umita, T.@Impact of coexistent metal on survival of diatom in presence of polynuclear hydroxy-alminium ion. @Environ. Eng. Res., @45, @139-145. @2008@@polynuclear hydroxyl-Aluminium ion; diatom; complex ecological impact of coexistent metal cations@NIES-487@NIES487
2093@Ishikawa, M., Takahashi, F., Nozaki, H., Nagasato, C., Motomura, T., Kataoka, H.@Distribution and phylogeny of the blue light receptors aureochromes in eukaryotes. @Planta, @230, @543-552. @2009@@aureochrome (AUREO); BL receptor; bZIP; LOV; stramenopiles@NIES-280@NIES280@NIES-1017@NIES1017@NIES-1@NIES1
2094@Okamura, H., Kitano, S., Toyota, S., Harino, H., Thomas, K. V.@Ecotoxicity of the degradation products of triphenylborane pyridine (TPBP) antifouling agent. @Chemosphere, @74, @1275-1278. @2009@@Artemia; bioassay; biocide; biphenyl; marina; Skeletonema@NIES-323@NIES323
2095@Shinozaki, A., Sato, N., Hayashi, Y.@Peroxisomal targeting signals in green algae. @Protoplasma, @235, @57-66. @2009@@Closterium; green algae; peroxisomal targeting signal (PTS); peroxisome; transport@NIES-228@NIES228
2096@Yamane, K., Matsuyama, S., Igarashi, K., Kuwabara, T.@Pyrolytic Generation of Petroleum Crude Oils from the Marine Phytomicroalgal Coccolithophore Emiliania huxleyi (Haptophyta) and Preparation of n-Alkane-Rich Biofuel.@Energy Fuels,@27, @7470–7479.@2013@@@NIES-837@NIES837
2097@Aoki, S., Ohara, S., Kimura, K., Mizuguchi, H., Fuse, Y., Yamada, E.@Characterization of fluorophores released from three kinds of lake phytoplankton using gel chromatography and fluorescence spectrophotometry. @Anal. Sci., @24, @1461-1467. @2008@@@NIES-109@NIES109@NIES-275@NIES275@NIES-665@NIES665
2098@Susilaningsih, D.@Accelerating of pink pigment excretion from cyanobacterium Oscillatoria by Co-Cultivation with Anabaena.@HHAYATI J. Biosci., @14, @18-22.@2007@@Oscillatoria; Anabaena variabilis; biosurfactant; cyanobacterium; pink pigment@NIES-44@NIES44@NIES-422@NIES422@NIES-19@NIES19@NIES-23@NIES23
2099@Hayama, M., Nakada, T., Hamaji, T., Nozaki, H.@Morphology, molecular phylogeny and taxonomy of Gonium maiaprilis sp. nov. (Goniaceae, Chlorophyta) from Japan. @Phycologia, @49, @221-234. @2010@@Chlorophyceae; Goniaceae; Gonium; Gonium maiaprilis sp. nov.; ITS; molecular phylogeny; morphology; rbcL; reproduction; taxonomy@NIES-2458@NIES2458@NIES-2459@NIES2459@NIES-2457@NIES2457@NIES-2456@NIES2456@NIES-2460@NIES2460@NIES-2461@NIES2461@NIES-2455@NIES2455
2100@Maruyama, S., Misawa, K., Iseki, M., Watanabe, M., Nozaki, H.@Origins of a cyanobacterial 6-phosphogluconate dehydrogenase in plastid-lacking eukaryotes. @BMC Evol. Biol., @8, @151 (article ID). @2008@@@NIES-48@NIES48
2101@Muramoto, K., Nakada, T., Shitara, T., Hara, Y., Nozaki, H.@Re-examination of the snow algal species Chloromonas miwae (Fukushima) Muramoto et al., comb. nov. (Volvocales, Chlorophyceae) from Japan, based on molecular phylogeny and cultured material. @Eur. J. Phycol., @45, @27-37. @2010@@Carteria miwae; Chloromonas miwae comb. nov.; Chlorophyceae; molecular phylogeny; morphology; sexual cycle; snow algae; taxonomy; Volvocales@NIES-2380@NIES2380@NIES-2379@NIES2379
2102@Nozaki, H.@Zygote germination in Pleodorina starrii (Volvocaceae, Chlorophyta). @Biologia, @63, @778–780. @2008@@Chlorophyta; Volvocales; Volvocaceae; Pleodorina starrii; morphology; zygote germination@NIES-1853@NIES1853@NIES-1852@NIES1852@NIES-1854@NIES1854
2103@Nozaki, H., Maruyama, S., Matsuzaki, M., Nakada, T., Kato, S., Misawa, K.@Phylogenetic positions of Glaucophyta, green plants (Archaeplastida) and Haptophyta (Chromalveolata) as deduced from slowly evolving nuclear genes. @Mol. Phylogenet. Evol.,@53, @872-880. @2009@@Archaeplastida; Chromalveolata; eukaryote evolution; Haptophyta; Glaucophyta; green plants; long branch attraction; nuclear genes; phylogeny; primary photosynthetic eukaryotes; short branch; "Super" Plant Kingdom@NIES-547@NIES547
2104@Nozaki, H., Nakada, T., Watanabe, S.@Evolutionary origin of Gloeomonas (Volvocales, Chlorophyceae), based on ultrastructure of chloroplasts and molecular phylogeny. @J. Phycol., @46, @195-201. @2010@@Chloromonadinia; Chloromonas; evolution; Gloeomonas; molecular phylogeny; pyrenoid; ultrastructure; Volvocales@NIES-464@NIES464@NIES-447@NIES447
2105@Nozaki, H., Takano, H., Misumi, O., Terasawa, K., Matsuzaki, M., Maruyama, S., Nishida, K., Yagisawa, F., Yoshida, Y., Fujiwara, T., Takio, S., Tamura, K., Chung, S. J., Nakamura, S., Kuroiwa, H., Tanaka, K., Sato, N., Kuroiwa, T.@A 100%-complete sequence reveals unusually simple genomic features in the hot-spring red alga Cyanidioschyzon merolae. @BMC Biol., @5, @28 (article ID).@2007@@@NIES-3377@NIES3377@NIES-1332@NIES1332
2106@Takahashi, F., Okabe, Y., Nakada, T., Sekimoto, H., Ito, M., Kataoka, H. & Nozaki, H.@Origins of the secondary plastids of Euglenophyta and Chlorarachniophyta as revealed by an analysis of the plastid-targeting, nuclear-encoded gene psbO. @J. Phycol., @43, @1302-1309. @2007@@alanine-X-alanine motif; Chlorarachniophyta; Euglenophyta; phylogeny; plastids; psbO; secondary endosymbiosis; transit peptide; thylakoid-targeting domain@NIES-624@NIES624@NIES-203@NIES203@NIES-533@NIES533@NIES-656@NIES656@NIES-483@NIES483@NIES-67@NIES67@NIES-254@NIES254@NIES-381@NIES381
2107@Yamada, T. K., Miyaji, K., Nozaki, H.@A taxonomic study of Eudorina unicocca (Volvocaceae, Chlorophyceae) and related species, based on morphology and molecular phylogeny. @Eur. J. Phycol., @43, @317-326. @2008@@aplanosporic strain; Eudorina unicocca; Eudorina peripheralis stat. nov.; Chlorophyceae; molecular phylogeny; morphology; taxonomy; Volvocales; Yamagishiella@NIES-722@NIES722@NIES-726@NIES726@NIES-1859@NIES1859@NIES-578@NIES578@NIES-666@NIES666@NIES-717@NIES717@NIES-723@NIES723@NIES-870@NIES870@NIES-872@NIES872@NIES-1856@NIES1856@NIES-1857@NIES1857@NIES-1860@NIES1860@NIES-1855@NIES1855@NIES-1861@NIES1861@NIES-724@NIES724@NIES-1858@NIES1858@NIES-725@NIES725
2108@Yamada, T. K., Tsuchikane, Y., Wu, J.-T., Sekimoto, H., Miyaji, K., Nozaki, H.@Morphology and molecular phylogeny of Eudorina sp. (Volvocaceae, Chlorophyceae) from Taiwan. @Hikobia, @15, @135-143. @2008@@Eudorina elegans; Eudorina minodii; Eudorina unicocca; Eudorina peripheralis; Chlorophyceae; molecular phylogeny; morpholohy; taxsonomy; Volvocales@NIES-2734@NIES2734@NIES-726@NIES726@NIES-2735@NIES2735@NIES-724@NIES724@NIES-1858@NIES1858@NIES-725@NIES725
2109@Loganathan, N., Tsai, YC., Mueller-Cajar, O.@Characterization of the heterooligomeric red-type rubisco activase from red algae.@Proc. Nati. Acad. Sci. U. S. A.,@113, @14019-14024. @2016@@rubisco; activase; photosynthesis; AAA⁺ proteins; red algae@NIES-1332@NIES1332@NIES-4696@NIES4696
2110@Lu, J., Satoh, H., Takeuchi, T.@Development of models of threshold and efficient algal densities for larval and juvenile tilapia Oreochromis niloticus on raw Spirulina. @Aquaculture, @285, @249-254. @2008@@assimilation; 14C labeling; CERAS (closed ecological recirculating aquaculture system); density; ingestion; Spirulina; Oreochromis niloticus@NIES-39@NIES39
2111@Lu, J., Takeuchi, T., Satoh, H.@Ingestion and assimilation of three species of freshwater algae by larval tilapia Oreochromis niloticus. @Aquaculture, @238, @437-449. @2004@@carbon assimilation; closed ecological recirculating aquaculture system (CERAS); Chlorella; 14C labeling; Euglena; ingestion; Oreochromis niloticus; Spirulina@NIES-641@NIES641@NIES-48@NIES48@NIES-39@NIES39
2112@Lu, J., Takeuchi, T., Satoh, H.@Ingestion, assimilation and utilization of raw Spirulina by larval tilapia Oreochromis niloticus during larval development. @Aquaculture, @254,@686-692. @2006@@assimilation; 14C labeling; CERAS (closed ecological recirculating aquaculture system); ingestion; Spirulina; Oreochromis niloticus@NIES-39@NIES39
2113@Naito, K., Imai, I., Nakahara, H.@Complexation of iron by microbial siderophores and effects of iron chelates on the growth of marine microalgae causing red tides. @Phycol. Res., @56,@58-67. @2008@@chelate; growth; iron; microalgae; red tide; siderophore@NIES-1@NIES1
2114@Lerche, K. & Hallmann, A.@Stable nuclear transformation of Gonium pectorale. @BMC Biotechnol., @9,@64 (article ID). @2009@@@NIES-1710@NIES1710
2115@Pombert, J.-F., Lemieux, C., Turmel, M@The complete chloroplast DNA sequence of the green alga Oltmannsiellopsis viridis reveals a distinctive quadripartite architecture in the chloroplast genome of early diverging ulvophytes. @BMC Biol., @4,@3 (article ID). @2006b@@@NIES-360@NIES360
2116@Bass, D., Howe, A. T., Mylnikov, A. P., Vickerman, K., Chao, E. E., Smallbone, J. E., Snell, J., Cabral Jr., C., Cavalier-Smith, T.@Phylogeny and classification of Cercomonadida (Protozoa, Cercozoa): Cercomonas, Eocercomonas, Paracercomonas, and Cavernomonas gen. nov.. @Protist, @160,@483-521. @2009@@Cercomonas; Eocercomonas; Paracercomonas; Cavernomonas; 18S rDNA phylogeny; Agitata@NIES-2434@NIES2434@NIES-2435@NIES2435@NIES-2436@NIES2436@NIES-2437@NIES2437@NIES-2438@NIES2438@NIES-2439@NIES2439@NIES-2440@NIES2440@NIES-2441@NIES2441@NIES-2442@NIES2442@NIES-2443@NIES2443@NIES-2444@NIES2444@NIES-2445@NIES2445@NIES-2449@NIES2449@NIES-2450@NIES2450@NIES-2451@NIES2451@NIES-2452@NIES2452@NIES-2453@NIES2453@NIES-2454@NIES2454
2117@Buchmanna, K. & Becker, B.@The system of contractile vacuoles in the green alga Mesostigma viride (Streptophyta).@Protist, @160,@427-443. @2009@@Mesostigma viride; Streptophyta; contractile vacuole; 3-D reconstruction; transmission electron microscopy@NIES-476@NIES476
2118@Cadel-Six, S., Dauga, C., Castets, A. M., Rippka, R., Bouchier, C., de Marsac, N. T., Welker, M.@Halogenase genes in nonribosomal peptide synthetase gene clusters of Microcystis (Cyanobacteria): sporadic distribution and evolution. @Mol. Biol. Evol., @25,@2031-2041. @2008@@halogenase; cyanopeptolin; aeruginosin; DNA rearrangement; secondary peptide metabolite; chlorination; internal transcribed spacer; phylogeny@NIES-89@NIES89@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-101@NIES101
2119@Edvardsen, B., Eikrem, W., Shalchian-Tabrizi, K., Riisberg, I., Johnsen, G., Naustvoll, L., Throndsen, J.@Verrucophora farcimen gen. et sp nov (Dictyochophyceae, Heterokonta) - A bloom-forming ichthyotoxic flagellate from the Skagerrak, Norway. @J. Phycol., @43,@1054-1070. @2007@@carotenoids; Chattonella; Dictyochophyceae; harmful algae; LSU rDNA; new taxon; phylogeny; SSU rDNA; ultrastructure@NIES-670@NIES670
2120@Howe, A. T., Bass, D., Vickerman, K., Chao, E. E., Cavalier-Smith, T.@Phylogeny, taxonomy, and astounding genetic diversity of Glissomonadida ord. nov., the dominant gliding zooflagellates in soil (Protozoa: Cercozoa). @Protist, @160, @159-189. @2009@@Glissomonadida; Sandonidae; Allapsidae; Bodomorphidae; Heteromita; phylogeny@NIES-2414@NIES2414@NIES-2415@NIES2415@NIES-2418@NIES2418@NIES-2419@NIES2419@NIES-2422@NIES2422@NIES-2423@NIES2423@NIES-2424@NIES2424@NIES-2425@NIES2425@NIES-2426@NIES2426@NIES-2427@NIES2427@NIES-2428@NIES2428@NIES-2429@NIES2429@NIES-2430@NIES2430@NIES-2421@NIES2421
2121@Ishida, K., Welker, M., Christiansen, G., Cadel-Six, S., Bouchier, C., Dittmann, E., Hertweck, C., de Marsac, N. T.@Plasticity and evolution of aeruginosin biosynthesis in Cyanobacteria. @Appl. Environ. Microbiol., @75,@2017-2026. @2009@@@NIES-843@NIES843@NIES-98@NIES98
2122@Issarapayup, K., Powtongsook, S., Pavasant, P.@Flat panel airlift photobioreactors for cultivation of vegetative cells of microalga Haematococcus pluvialis. @J. Biotechnol., @142, @227-232. @2009@@airlift photobioreactor; vegetative cells; astaxanthin; bioprocess design; microalga@NIES-144@NIES144
2123@Kamikawa, R., Masuda, I., Demura, M., Oyama, K., Yoshimatsu, S., Kawachi, M., Sako, Y.@Mitochondrial group II introns in the Raphidophycean flagellate Chattonella spp. suggest a diatom-to-Chattonella lateral group II intron transfer. @Protist, @160,@364-375. @2009@@Chattonella; cytochrome c oxidase subunit 1 (cox1); diatoms; group II intron; lateral transfer; Raphidophyceae@NIES-2@NIES2@NIES-462@NIES462@NIES-1303@NIES1303@NIES-85@NIES85@NIES-121@NIES121@NIES-1@NIES1@NIES-3@NIES3@NIES-14@NIES14@NIES-1976@NIES1976@NIES-716@NIES716@NIES-86@NIES86@NIES-115@NIES115@NIES-118@NIES118@NIES-161@NIES161@NIES-557@NIES557@NIES-558@NIES558@NIES-603@NIES603@NIES-671@NIES671@NIES-849@NIES849@NIES-1975@NIES1975@NIES-2391@NIES2391
2124@Kisugi, T. & Okino, T.@Micropeptins from the freshwater cyanobacterium Microcystis aeruginosa (NIES-100). @J. Nat. Prod., @72,@777-781. @2009@@@NIES-100@NIES100
2125@Kooistra, W. H. C. F., Sarno, D., Balzano, S., Gu, H., Andersen, R. A., Zingone, A.@Global diversity and biogeography of Skeletonema species (Bacillariophyta). @Protist, @159,@177-193. @2008@@biogeography; cryptic species; distribution; LSU rDNA; phytoplankton; Skeletonema costatum@NIES-324@NIES324@NIES-223@NIES223@NIES-17@NIES17@NIES-323@NIES323@NIES-16@NIES16
2126@Rounge, T. B., Rohrlack, T., Kristensen, T., Jakobsen, K. S.@Recombination and selectional forces in cyanopeptolin NRPS operons from highly similar, but geographically remote Planktothrix strains. @BMC Microbiol., @8,@141 (article ID).@2008@@@NIES-205@NIES205
2127@Sato, T. & Hori, K.@Cloning, expression, and characterization of a novel anti-HIV lectin from the cultured cyanobacterium, Oscillatoria agardhii. @Fish. Sci., @75,@743-753. @2009@@anti-HIV; high-mannose N-glycans; Oscillatoria agardhii; lectin; recombinant lectin@NIES-204@NIES204
2128@Sato, Y., Okuyama, S., Hori, K.@Primary structure and carbohydrate binding specificity of a potent anti-HIV lectin isolated from the filamentous cyanobacterium Oscillatoria agardhii. @J. Biol. Chem., @282,@11021-11029. @2007@@@NIES-204@NIES204
2129@Satoh, M., Iwamoto, K., Suzuki, I., Shiraiwa, Y.@Cold stress stimulates intracellular calcification by the coccolithophore, Emiliania huxleyi (Haptophyceae) under phosphate-deficient conditions. @Mar. Biotechnol., @11,@327-333. @2009@@calcification; coccolith production; coccolithophore; cold stress; Emiliania huxleyi; phosphate deprivation@NIES-837@NIES837
2130@Simon, A., Glockner, G., Felder, M., Melkonian, M., Becker, B.@EST analysis of the scaly green flagellate Mesostigma viride (Streptophyta): implications for the evolution of green plants (Viridiplantae). @BMC Plant Biol., @6,@2 (article ID). @2006@@@NIES-476@NIES476
2131@Tanabe, Y., Kasai, F., Watanabe, M. M.@Fine-scale spatial and temporal genetic differentiation　of water bloom-forming cyanobacterium Microcystis aeruginosa: revealed by multilocus sequence typing. @Environ. Microbiol. Rep., @1,@575-582. @2009a@@@NIES-2471@NIES2471@NIES-2472@NIES2472@NIES-2473@NIES2473@NIES-2474@NIES2474@NIES-2475@NIES2475@NIES-2476@NIES2476@NIES-2477@NIES2477@NIES-2478@NIES2478@NIES-2479@NIES2479@NIES-2482@NIES2482@NIES-2483@NIES2483@NIES-2484@NIES2484@NIES-2485@NIES2485@NIES-2486@NIES2486@NIES-2487@NIES2487@NIES-2488@NIES2488@NIES-2489@NIES2489@NIES-2491@NIES2491@NIES-2492@NIES2492@NIES-2493@NIES2493@NIES-2494@NIES2494@NIES-2495@NIES2495@NIES-2496@NIES2496@NIES-2546@NIES2546@NIES-2547@NIES2547@NIES-2548@NIES2548@NIES-2550@NIES2550@NIES-2551@NIES2551@NIES-2552@NIES2552@NIES-2553@NIES2553@NIES-2554@NIES2554@NIES-2556@NIES2556@NIES-2557@NIES2557@NIES-2558@NIES2558@NIES-2559@NIES2559@NIES-2561@NIES2561@NIES-2592@NIES2592@NIES-2593@NIES2593@NIES-2594@NIES2594@NIES-2617@NIES2617@NIES-2618@NIES2618@NIES-2480@NIES2480@NIES-2481@NIES2481@NIES-2469@NIES2469@NIES-2470@NIES2470@NIES-2549@NIES2549@NIES-2560@NIES2560@NIES-2555@NIES2555@NIES-2490@NIES2490
2132@Tanabe, Y., Sano, T., Kasai, F., Watanabe, M. M.@Recombination, cryptic clades and neutral molecular divergence of the microcystin synthetase (mcy) genes of toxic cyanobacterium Microcystis aeruginosa. @BMC Evol. Biol., @9,@115 (article ID). @2009b@@@NIES-1050@NIES1050@NIES-1051@NIES1051@NIES-1052@NIES1052@NIES-1053@NIES1053@NIES-1056@NIES1056@NIES-1057@NIES1057@NIES-1059@NIES1059@NIES-1060@NIES1060@NIES-1065@NIES1065@NIES-1066@NIES1066@NIES-1075@NIES1075@NIES-1093@NIES1093@NIES-1094@NIES1094@NIES-1096@NIES1096@NIES-1098@NIES1098@NIES-1100@NIES1100@NIES-1101@NIES1101@NIES-1103@NIES1103@NIES-1104@NIES1104@NIES-1106@NIES1106@NIES-1107@NIES1107@NIES-1125@NIES1125@NIES-1127@NIES1127@NIES-1128@NIES1128@NIES-1129@NIES1129@NIES-1130@NIES1130@NIES-1134@NIES1134@NIES-1135@NIES1135@NIES-1136@NIES1136@NIES-1137@NIES1137@NIES-1138@NIES1138@NIES-1140@NIES1140@NIES-1144@NIES1144@NIES-1145@NIES1145@NIES-1146@NIES1146@NIES-1147@NIES1147@NIES-1148@NIES1148@NIES-1149@NIES1149@NIES-1151@NIES1151@NIES-1152@NIES1152@NIES-1153@NIES1153@NIES-1155@NIES1155@NIES-1156@NIES1156@NIES-1157@NIES1157@NIES-1159@NIES1159@NIES-1160@NIES1160@NIES-1161@NIES1161@NIES-1162@NIES1162@NIES-1163@NIES1163@NIES-1170@NIES1170@NIES-1171@NIES1171@NIES-1172@NIES1172@NIES-1216@NIES1216@NIES-1217@NIES1217@NIES-1218@NIES1218@NIES-1220@NIES1220@NIES-1221@NIES1221@NIES-1223@NIES1223@NIES-1224@NIES1224@NIES-1225@NIES1225@NIES-1227@NIES1227@NIES-1228@NIES1228@NIES-1229@NIES1229@NIES-1231@NIES1231@NIES-1232@NIES1232@NIES-1233@NIES1233@NIES-1234@NIES1234@NIES-1235@NIES1235@NIES-1236@NIES1236@NIES-1237@NIES1237@NIES-1238@NIES1238@NIES-1239@NIES1239@NIES-1240@NIES1240@NIES-1241@NIES1241@NIES-1242@NIES1242@NIES-1243@NIES1243@NIES-1244@NIES1244@NIES-1245@NIES1245@NIES-1251@NIES1251@NIES-1252@NIES1252@NIES-1253@NIES1253@NIES-1254@NIES1254@NIES-2466@NIES2466@NIES-2467@NIES2467@NIES-2471@NIES2471@NIES-2472@NIES2472@NIES-2473@NIES2473@NIES-2474@NIES2474@NIES-2475@NIES2475@NIES-2476@NIES2476@NIES-2477@NIES2477@NIES-2478@NIES2478@NIES-2479@NIES2479@NIES-2561@NIES2561@NIES-105@NIES105@NIES-1090@NIES1090@NIES-1068@NIES1068@NIES-1061@NIES1061@NIES-106@NIES106@NIES-1092@NIES1092@NIES-108@NIES108@NIES-109@NIES109@NIES-1076@NIES1076@NIES-1133@NIES1133@NIES-1115@NIES1115@NIES-1143@NIES1143@NIES-1164@NIES1164@NIES-110@NIES110@NIES-478@NIES478@NIES-100@NIES100@NIES-299@NIES299@NIES-1226@NIES1226@NIES-1105@NIES1105@NIES-1058@NIES1058@NIES-1091@NIES1091@NIES-1070@NIES1070@NIES-111@NIES111@NIES-107@NIES107@NIES-112@NIES112@NIES-1213@NIES1213@NIES-1214@NIES1214@NIES-1215@NIES1215@NIES-1113@NIES1113@NIES-1108@NIES1108@NIES-1102@NIES1102@NIES-1097@NIES1097@NIES-1126@NIES1126@NIES-1067@NIES1067@NIES-1139@NIES1139@NIES-1141@NIES1141@NIES-1142@NIES1142@NIES-1150@NIES1150@NIES-1219@NIES1219@NIES-1222@NIES1222@NIES-1230@NIES1230@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1069@NIES1069@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1055@NIES1055@NIES-1131@NIES1131@NIES-1054@NIES1054@NIES-44@NIES44@NIES-1122@NIES1122@NIES-2469@NIES2469@NIES-2470@NIES2470@NIES-88@NIES88@NIES-843@NIES843@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-1124@NIES1124@NIES-1209@NIES1209@NIES-2465@NIES2465@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1211@NIES1211@NIES-98@NIES98@NIES-102@NIES102@NIES-91@NIES91@NIES-1123@NIES1123@NIES-1062@NIES1062@NIES-901@NIES901@NIES-1132@NIES1132@NIES-1114@NIES1114@NIES-298@NIES298@NIES-101@NIES101@NIES-103@NIES103@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
2133@Nakayama, T., Suda, S., Kawachi, M., Inouye, I.@Phylogeny and ultrastructure of Nephroselmis and Pseudoscourfieldia (Chlorophyta), including the description of Nephroselmis anterostigmatica sp. nov. and a proposal for the Nephroselmidales ord. nov. @Phycologia, @46, @680-697.@2007@@18S rDNA; hair scales; Nephroselmidales ord nov.; Nephroselmis anterostigmatica sp. nov.; phylogeny; Prasinophyceae; Pseudoscourfieldia marina; taxonomy; ultrastructure@NIES-252@NIES252@NIES-935@NIES935
2134@Takishita, K., Yamaguchi, H., Maruyama, T., Inagaki, Y.@A hypothesis for the evolution of nuclear-encoded, plastid-targeted glyceraldehyde-3 phosphate dehydrogenase genes in "chromalveolate" members. @PLoS One, @4, @e4737 (article ID).@2009@@@NIES-275@NIES275@NIES-15@NIES15@NIES-716@NIES716@NIES-706@NIES706
2135@Yamaguchi, H., Hoppenrath, M., Takishita, K., Horiguchi, T.@Haramonas pauciplastida sp. nov. (Raphidophyceae, Heterokontophyta) and phylogenetic analyses of Haramonas species using small subunit ribosomal RNA gene sequences. @Phycol. Res., @56, @127-138.@2008@@Haramonas pauciplastida sp. nov.; phylogeny; Raphidophyceae; small subunit rDNA; taxonomy; ultrastructure@NIES-1870@NIES1870@NIES-716@NIES716
2136@Nakada, T., Shinkawa, H., Ito, T., Tomita, M. @Recharacterization of Chlamydomonas reinhardtii and its relatives with new isolates from Japan. @J. Plant Res., @123, @67-78.@2010@@Chlamydomonas reinhardtii; Chlorophyceae; distribution; phycology; species; taxonomy@NIES-2463@NIES2463@NIES-2464@NIES2464@NIES-1858@NIES1858@NIES-1708@NIES1708@NIES-2462@NIES2462
2137@Nakada, T., Soga, T., Tomita, M., Nozaki, H. @Chlorogonium complexum sp. nov. (Volvocales, Chlorophyceae), and morphological evolution of Chlorogonium. @Eur. J. Phycol., @45, @97-106.@2010@@Chlorogonium complexum sp. nov.; Chlorophyceae; molecular phylogeny; morphology; pyrenoids; taxonomy@NIES-752@NIES752@NIES-753@NIES753@NIES-692@NIES692@NIES-751@NIES751@NIES-2296@NIES2296@NIES-2297@NIES2297
2138@Nishibori, N., Niitsu, M., Fujihara, S., Sagara, T., Nishio, S., Imai, I. @Occurrence of the polyamines caldopentamine and homocaldopentamine in axenic cultures of the red tide flagellates Chattonella antiqua and Heterosigma akashiwo (Raphidophyceae). @FEMS Microbiol. Lett., @298, @74-78.@2009@@caldopentamine; homocaldopentamine; Chattonella antiqua; Heterosigma akashiwo@NIES-1@NIES1@NIES-6@NIES6
2139@Katsuda, T., Shimahara, K., Shiraishi, H., Yamagami, K., Ranjbar, R., Katoh, S. @Effect of flashing light from blue light emitting diodes on cell growth and astaxanthin production of Haematococcus pluvialis. @J. Biosci. Bioeng., @102, @442-446.@2006@@flashing light; blue light emitting diode; astaxanthin; Haematococcus pluvialis@NIES-144@NIES144
2140@Katsuda, T., Shiraishi, H., Ishizu, N., Ranjbar, R., Katoh, S. @Effect of light intensity and frequency of flashing light from blue light emitting diodes on astaxanthin production by Haematococcus pluvialis. @J. Biosci. Bioeng., @105, @216-220.@2008@@flashing light; blue light emitting diode; light intensity; astaxanthin; Haematococcus pluvialis@NIES-144@NIES144
2141@Ranjbar, R., Inoue, R., Katsuda, T., Yamaji, H., Katoh, S. @High efficiency production of astaxanthin in an airlift photobioreactor. @J. Biosci. Bioeng., @106, @204-207.@2008@@Haematococcus pluvialis; airlift bubble column; liquid circulation;nirate concentration; astaxanthin@NIES-144@NIES144
2142@Ranjbar, R., Inoue, R., Shiraishi, H., Katsuda, T., Katoh, S. @High efficiency production of astaxanthin by autotrophic cultivation of Haematococcus pluvialis in a bubble column photobioreactor. @Biochem. Eng. J., @39, @575-580.@2008@@Haematococcus pluvialis; autotrophic culture; bubble column; Fed-batch; nitrate concentration astaxanthin@NIES-144@NIES144
2143@Yamamoto, H., Hada, K., Yamaji, H., Katsuda, T., Ohno, H., Fukuda, H. @Application of regularized alternating least squares and independent component analysis to HPLC-DAD data of Haematococcus pluvialis metabolites. @Biochem. Eng. J., @32, @149-156.@2006@@metabolomics; chemometrics; HPLC-DAD; alternating least squares; regularized term; independent component analysis@NIES-144@NIES144
2144@Yoshimura, S., Ranjbar, R., Inoue, R., Katsuda, T., Katoh, S. @Effective utilization of transmitted light for astaxanthin production by Haematococcus pluvialis. @J. Biosci. Bioeng., @102, @97-101.@2006@@astaxanthin; Haematococcus pluvialis; transmitted light; physiological response@NIES-144@NIES144
2145@Ochiai, T., Fukuda, T., Nakata, K., Murakami, T., Tryk, D. A., Koide, Y., Fujishima, A. @Photocalalytic inactivation and removal of algae with TiO2-coated materials. @J. Appl. Electrochem., @40, @1737–1742.@2010@@TiO2 photocatalyst; photoelectrochemical deposition; photocatalytic inactivation; algae@NIES-1668@NIES1668
2146@Nakada, T., Nozaki, H., Tomita, M. @Another origin of coloniality in volvocaleans: the phylogenetic position of Pyrobotrys Arnoldi (Spondylomoraceae, Volvocales). @J. Eucaryot. Microbiol.,@57, @379-382.@2010@@Chlorophyceae; molecular phylogeny; multicellularity@NIES-2564@NIES2564
2147@Matsuzaki, R., Nakada, T., Hara, Y., Nozaki, H. @Light and electron microscopy and molecular phylogenetic analyses of Chloromonas pseudoplatyrhyncha (Volvocales, Chlorophyceae). @Phycol. Res., @58, @202-209.@2010@@Chloromonadinia; Chloromonas; Chloromonas lineage; molecular phylogeny; morphology; pyrenoid; ultrastructure; Volvocales@NIES-2563@NIES2563
2148@Ueda, H., Otsuka, S., Senoo, K. @Bacterial communities constructed in artificial consortia of bacteria and Chlorella vulgaris. @Microbes Environ.,@25, @36-40.@2010@@Chlorella vulgaris; algal-bacterial association; bacteria; co-cultivation; consortium@NIES-227@NIES227
2149@Takaichi, S., Maoka, T., Mochimaru, M. @Unique carotenoids in the terrestrial cyanobacterium Nostoc commune NIES-24: 2-hydroxymyxol 2'-fucoside, nostoxanthin and canthaxanthin. @Curr. Microbiol., @59, @413-419.@2009@@@NIES-24@NIES24
2150@Harada, K-I., Ozaki, K., Tsuzuki, S., Kato, H., Hasegawa, M., Kuroda, E. K., Arii, S., Tsuji, K. @Blue color formation of cyanobacteria with b-cyclocitral. @J. Chem. Ecol., @35, @1295-1301.@2009@@b-cyclocitral; cyanobacteria; lysis; blue color formation; acid stress@NIES-112@NIES112@NIES-611@NIES611@NIES-808@NIES808@NIES-73@NIES73@NIES-102@NIES102@NIES-298@NIES298@NIES-103@NIES103
2151@Ha, K., Takamura, N., Jang, M.-H. @Microcystin production by Microcystis aeruginosa exposed to phytoplanktivorous and omnivorous fish at different kairomone concentrations. @Bull. Environ. Contam. Toxicol., @83, @761-765.@2009@@microcystin; kairomone; Hypophthalmichthys molitrix; Carassius gibelio langsdorfi@NIES-107@NIES107@NIES-89@NIES89@NIES-103@NIES103
2152@Cunningham, Jr., F. X., Lee, H., Gantt, E. @Carotenoid biosynthesis in the primitive red alga Cyanidioschyzon merolae. @Eukaryot. Cell, @6, @533-545.@2007@@@NIES-3377@NIES3377@NIES-1332@NIES1332
2153@Makino, T., Harada, H., Ikenaga, H., Matsuda, S., Takaichi, S., Shindo, K., Sandmann, G., Ogata, T., Misawa, N. @Characterization of cyanobacterial carotenoid ketolase CrtW and hydroxylase CrtR by complementation analysis in Escherichia coli. @Plant Cell Physiol., @49, @1867-1878.@2008@@Anabaena sp. PCC 7120; β-carotene; carotenoid; CrtR; CrtW; Nostoc punctiforme@NIES-2095@NIES2095
2154@Takaichi., S., Mochimaru, M., Maoka, T. @Presense of free myxol and 4-hydroxymyxol and absense of myxol glycosides in Anabaena variabilis ATCC 29413, and proposal of a biosynthetic pathway of carotenoids. @Plant Cell Physiol., @47,@211-216.@2006@@Anabaena variabilis ATCC 29413; carotenogenesis; carotenoid; 4-hydroxymyxol; myxol@NIES-2095@NIES2095
2155@Yoshii, Y., Takaichi, S., Maoka, T., Hanada, S., Inouye, I. @Characterization of two unique carotenoid fatty acid esters from Pterosperma cristatum (Prasinophyceae, Chlorophyta). @J. Phycol., @38,@297-303.@2002@@antenna pigment; carotenoid; Prasinophyceae; Pterosperma; siphonaxanthin; siphonaxanthin ester@NIES-936@NIES936
2156@Fujisawa, T., Narikawa, R., Okamoto, S., Ehira, S., Yoshimura, H., Suzuki, I., Masuda, T., Mochimaru, M., Takaichi, S., Awai, K., Sekine, M., Horikawa, H., Yashiro, I., Omata, S., Takarada, H., Katano, Y., Kosugi, H., Tanikawa, S., Ohmori, K., Sato, N.,Ikeuchi, M., Fujita, N., Ohmori, M. @Genomic structure of an economically important cyanobacterium, Arthrospira (Spirulina) platensis NIES-39. @DNA Res., @17,@85-103.@2010@@cyanobacteria; Arthrospira; health supplement; genome; cAMP@NIES-39@NIES39
2157@Lin, S., Wu, Z., Yu, G., Zhu, M., Yu, B., Li, R. @Genetic diversity and molecular phylogeny of Planktothrix (Oscillatoriales, cyanobacteria) strains from China. @Harmful Algae, @9,@87-97.@2010@@diversity; phylogeny; Planktothrix; 16S rRNA; rbcLX; rpoC1; taxonomy; water bloom@NIES-1266@NIES1266@NIES-928@NIES928
2158@Kunugi, M., Matsumoto, M., Kondo, K. @Effect of culture conditions on production of useful materials by Haematococcus pluvialis. @Bull. Soc. Sea Water Sci., Jpn, @64,@297-304 (in Japanese with English summary).@2010@@biomass; microalgae; carbon dioxide; useful material production@NIES-144@NIES144
2159@Ogawa, Y., Kimura, S., Wada, M., Kuga, S. @Crystal analysis and high-resolution imaging of microfibrillar a-chitin from Phaeocystis. @J. Struct. Biol., @171,@111-116.@2010@@a-chitin microfibril; Phaeocystis; FT-IR spectroscopy; X-ray diffraction; high-resolution electron microscopy; lattice imaging@NIES-1396@NIES1396
2160@Kawahara, T., Kumaki, Y., Kamada, T., Ishii, T., Okino, T.@Absolute configuration of chlorosulfolipids from the chrysophyta Ochromonas danica. @J. Org. Chem., @74,@6016-6024.@2009@@@NIES-2142@NIES2142
2161@Watanabe, M., Kubota, H., Wada, H., Narikawa, R., Ikeuchi, M. @Novel supercomplex organization of PSI in Anabaena and Cyanophora paradoxa. @Plant Cell Physiol., @52,@162-168.@2011@@Anabaena; blue-native PAGE; Cyanophora paradoxa; PSI; supercomplex@NIES-547@NIES547
2162@Watanabe, Y., Tanaka, Y., Sakai, J. @Bioluminescence imaging measurements of impact fluid pressure. @J. JSCE [Doboku-kôgaku Ronbunshû], @B2-65,@831-835 (in Japanese with English summary).@2009@@@NIES-609@NIES609
2163@Tie, J., Uchigasaki, S., Haseba, T., Ohno, Y., Isahai, I., Oshida, S.@Direct and rapid PCR amplification using digested tissues for the diagnosis of drowning. @Electrophoresis, @31,@2411-2415.@2010@@diagnosis; direct PCR amplification; drowning; human tissues; phytoplankton@NIES-47@NIES47
2164@Nakai, S., Zou, G., Song, X., Pan, Q., Zhou, S., Hosomi, M. @Release of anti-cyanobacterial allelochemicals from aquatic and terrestrial plants applicable for artificial floating islands. @J. Water Environ. Technol., @6,@55-63.@2008@@allelopathy; canna; carboxylic comp.; cyanobacteria; growth inhibition; phenolic comp.; umbrella plant@NIES-87@NIES87
2165@Nakai, S., Zou, G., Okuda, T., Tsai, T.-Y., Song, X., Nishijima, W., Okada, M. @Anti-cyanobacterial allelopathic effects of plants used for artificial floating islands. @Allelopathy J., @26,@113-122.@2010@@Acorus gramineus; aquatic and terrestrial plants; artificial floating island; Canna generalis; cyanobacterium; growth inhibition; Iris pseudacorus; Lythrum salicaria; Scirpus tabernaemontani; Typha angustifolia@NIES-87@NIES87
2166@Choi, K., Ueki, M., Imai, A., Kim, B., Kawabata, Z. @Photoalteration of dissolved organic matter (DOM) released from Microcystis aeruginosa in different growth phases: DOM-fraction distribution and biodegradability. @Arch. Hydrobiol., @159,@271-286.@2004@@algal DOM; growth phase; UV effects; photoalteration; biodegradability; chemical composition@NIES-843@NIES843
2167@Gile, G. H., Stern, R. F., James, E. R., Keeling, P. J. @DNA barcoding of chlorarachniophytes using nucleomorph its sequences. @J. Phycol., @46,@743-750.@2010@@Bigelowiella; Chlorarachnion; culture collections; Gymnochlora; internal transcribed spacer; Lotharella; Norrisiella; Partenskyella@NIES-2677@NIES2677@NIES-624@NIES624@NIES-2584@NIES2584
2168@Stern, R. F., Horak, A., Andrew, R. L., Coffroth, M.-A., Andersen, R. A., Küpper, F. C., Jameson, I., Hoppenrath, M., Véron, B., Kasai, F., Brand, J., James, E. R., Keeling, P. J. @Environmental barcoding reveals massive dinoflagellate diversity in marine environments. @PLoS One, @5,@e13991 (article ID).@2010@@@NIES-1367@NIES1367
2169@Boo, S. M., Kim, H. S., Shin, W., Boo, G. H., Cho, S. M., Jo, B. Y., Kim, J.-H., Kim, J. H., Yang, E. C., Siver, P. A., Wolfe, A. P., Bhattacharya, D., Andersen, R. A., Yoon, H. S. @Complex phylogeographic patterns in the freshwater alga Synura provide new insights into ubiquity vs. endemism in microbial eukaryotes.@Mol. Ecol., @19,@4328-4338.@2010@@biogeography; endemism; Synura; Synurophyceae; ubiquity hypothesis@NIES-233@NIES233@NIES-1007@NIES1007
2170@Neilan, B. A., Dittmann, E., Rouhiainen, L., Bass, R. A., Schaub, V., Sivonen, K., Börner, T. @Nonribosomal peptide synthesis and toxigenicity of Cyanobacteria. @J. Bacteriol., @181,@4089-4097.@1999@@@NIES-107@NIES107@NIES-204@NIES204@NIES-81@NIES81@NIES-99@NIES99@NIES-19@NIES19@NIES-102@NIES102@NIES-24@NIES24
2171@Nakada, T. & Tomita, M. @Chlamydomonas neoplanoconvexa nom. nov. and its unique phylogenetic position within Volvocales (Chlorophyceae). @Phycol. Res., @59,@194-199.@2011@@Caudivolvoxa; Chlamydomonas neoplanoconvexa nom. nov.; molecular phylogeny; morphology; pyrenoid; Volvocales@NIES-2570@NIES2570
2172@Watanabe, H., Nakajima, F., Kasuga, I., Furumai, H. @Toxicity evaluation of road dust in the runoff process using a benthic ostracod Heterocypris incongruens. @Sci. Total Environ., @409,@2366-2372.@2011@@road dust; toxicity; benthic ostracod; runoff process; solid/liquid ratio; holding time; water phase; solid phase@NIES-94@NIES94
2173@Yokono, M., Murakami, A., Akimoto, S. @Excitation energy transfer between photosystem II and photosystem I in red algae: larger amounts of phycobilisome enhance spillover. @Biochim. Biophys. Acta-Bioenerg.,@1807,@847-853.@2011@@spillover; red algae; delayed fluorescence; phycobilisome; red chlorophyll@NIES-2138@NIES2138
2174@Nozaki, H. & Coleman, A. W. @A new species of Volvox sect. Merrillosphaera (Volvocaceae, Chlorophyceae) from Texas. @J. Phycol., @47,@673-679.@2011@@molecular phylogeny; morphology; taxonomy; Volvox ovalis sp. nov.; Volvox sect. Merrillosphaera@NIES-2569@NIES2569
2175@Kaya, K., Shiraishi, F., Uchida, H., Sano, T. @A novel retinoic acid analogue, 7-hydroxy retinoic acid, isolated from cyanobacteria. @Biochim. Biophys. Acta-Gen. Subj., @1810,@414-419.@2011@@7-hydroxy retinoic acid; RAR agonistic activity; cyanobacteria; UV stability@NIES-45@NIES45@NIES-512@NIES512@NIES-931@NIES931@NIES-44@NIES44@NIES-610@NIES610@NIES-46@NIES46
2176@Mizoguchi, T., Kimura, Y., Yoshitomi, T., Tamiaki, H. @The stereochemistry of chlorophyll-c₃ from the haptophyte Emiliania huxleyi: the (13²R)-enantiomers of chlorophylls-c are exclusively selected as the photosynthetically active pigments in chromophyte algae. @Biochim. Biophys. Acta-Bioenerg.,@1807,@1467-1473.@2011@@chlorophyll-c; chiral HPLC; enantioimer; chromophyte algae; light-harvesting complexes@NIES-281@NIES281@NIES-837@NIES837@NIES-696@NIES696@NIES-71@NIES71
2177@Kawafune, K., Hongoh, Y., Hamaji, T., Nozaki, H. @Molecular identification of rickettsial endosymbionts in the non-phagotrophic Volvocalean green algae.@PLoS One, @7,@e31749 (article ID).@2012@@@NIES-425@NIES425@NIES-577@NIES577
2178@Denboh, T., Ichimura, T., Hendrayanti, D., Coleman, A. W. @Closterium moniliferum-ehrenbergii (Charophyceae, Chlorophyta) species complex viewed from the 1506 Group I intron and ITS2 of nuclear rDNA. @J. Phycol., @39, @960-977.@2003@@biological species; Closterium; group I introns; ITS2; mating group; molecular phylogeny; speciation@NIES-228@NIES228@NIES-229@NIES229@NIES-172@NIES172@NIES-183@NIES183@NIES-173@NIES173@NIES-174@NIES174@NIES-182@NIES182
2179@Hirose, M., Reimer, J. D., Hidaka, M., Suda, S. @Phylogenetic analyses of potentially free-living Symbiodinium spp. Isolated from coral reef sand in Okinawa, Japan. @Mar. Biol., @155, @105-112.@2008@@@NIES-2639@NIES2639@NIES-2640@NIES2640@NIES-2641@NIES2641@NIES-2642@NIES2642@NIES-2643@NIES2643@NIES-2638@NIES2638
2180@Iida, H., Nishii, I., Inouye, I. @Embryogenesis and cell positioning in Platydorina caudata (Volvocaceae, Chlorophyta). @Phycologia, @50, @530-540.@2011@@Volvocaceae; inversion; intercalation; cytoplasmic bridge; stalk; colony formation@NIES-729@NIES729@NIES-728@NIES728
2181@Kato, A., Morita, N., Hiratsuka, T., Suda, S. @Recent introduction of a freshwater red alga Chantransia macrospora (Batrachospermales, Rhodophyta) to Okinawa, Japan. @Aquat. Invasions, @4, @567-574.@2009@@Audouinella; Batrachospermum; Chantransia macrospora; freshwater algae; introduced species; macroalgae@NIES-2636@NIES2636
2182@Kimura, J. @Screening for allelopathic activity on algal growth.@Bull. Hiroshima Pref. Tech. Res. Inst., Publ. Health Environ. Center,@19, @37-46 (in Japanese).@2011@@Microcystis; Chlorella; Nitzschia; growth inhibition; allelopathy@NIES-642@NIES642@NIES-88@NIES88@NIES-487@NIES487
2183@Li, R., Carmichael, W. W., Pereira, P. @Morphological and 16S rRNA gene evidence for reclassification of the paralytic shellfish toxin producing Aphanizomenon flos-aquae LMECYA 31 as Aphanizomenon issatschenkoi (Cyanophyceae). @J. Phycol., @39, @814-818.@2003@@Ahanizomenon issatschenkoi; cyanotoxin; 16S rDNA; morphology; gene sequences; taxonomy@NIES-1728@NIES1728
2184@Nagai, T., Ishihara, S., Yokoyama, A., Iwafune, T. @Effects of four rice paddy herbicides on algal cell viability and the relationship with population recovery. @Environ. Toxicol. Chem., @30, @1898-1905.@2011@@pesticide; ecological risk; flow cytometry; green algae@NIES-35@NIES35
2185@Nakada, T., Tomita, M., Nozaki, H. @Volvulina compacta (Volvocaceae, Chlorophyceae), new to Japan, and its phylogenic position.@J. Jpn. Bot., @85, @364-369.@2010@@molecular phylogeny; taxonomy; Volvocaceae; Volvulina compacta@NIES-2567@NIES2567
2186@Nozaki, H., Mori, T., Misumi, O., Matsunaga, S., Kuroiwa, T. @Males evolved from the dominant isogametic mating type. @Curr. Biol., @16,@R1018-R1020.@2006@@@NIES-1614@NIES1614@NIES-1611@NIES1611@NIES-2214@NIES2214@NIES-2213@NIES2213@NIES-2212@NIES2212
2187@Onduka, T., Mochida, K., Harino, H., Ito, K., Kakuno, A., Fujii, K. @Toxicity of metal pyrithione photodegradation products to marine organisms with indirect evidence for their presence in seawater. @Arch. Environ. Contam. Toxicol.,@58,@991-997.@2010@@@NIES-324@NIES324
2188@Ota, S. & Vaulot, D. @Lotharella reticulosa sp. nov.: a highly reticulated network forming chlorarachniophyte from the Mediterranean Sea.@Protist, @163,@91-104.@2012@@chlorarachniophytes; Lotharella; Mediterranean Sea; RCC375, RCC376; taxonomy@NIES-2584@NIES2584
2189@Setohigashi, Y., Hamaji, T., Hayama, M., Matsuzaki, R., Nozaki, H. @Uniparential inheritance of chloroplast DNA is strict in the isogamous volvocalean Gonium. @PLoS One, @6,@e19545 (article ID).@2011@@@NIES-2457@NIES2457@NIES-2455@NIES2455
2190@Shimada, K., Kitamura, N., Yoshida, Y., Matsushima, H., Asada, Y. @Effects of water soluble extract from the dead leaves of deciduous trees on the growth control of toxic cyanobacteria like Microcystis aeruginosa. @In Water Pollution X, Eds. by Marinov, A. M. & Brebbia, C. A., WIT Press, Bucharest.@@pp. 71-82.@2010@@@NIES-102@NIES102
2191@Tanabe, Y. @"Biological species recognition" within the toxic cyanobacterium Microcystis. @IFO Res. Commun., @24,@69-79 (in Japanese with English summary).@2010@@Microcystis; MLST; microcystin synthetase; recombination; biological species recognition@NIES-2490@NIES2490@NIES-2491@NIES2491@NIES-2492@NIES2492@NIES-2493@NIES2493@NIES-2494@NIES2494@NIES-2495@NIES2495@NIES-2496@NIES2496@NIES-2542@NIES2542@NIES-2543@NIES2543@NIES-2544@NIES2544@NIES-2545@NIES2545@NIES-2546@NIES2546@NIES-2547@NIES2547@NIES-2548@NIES2548@NIES-2549@NIES2549@NIES-2550@NIES2550@NIES-2551@NIES2551@NIES-2552@NIES2552@NIES-2553@NIES2553@NIES-2554@NIES2554@NIES-2555@NIES2555@NIES-2556@NIES2556@NIES-2557@NIES2557@NIES-2558@NIES2558@NIES-2559@NIES2559@NIES-2560@NIES2560@NIES-2561@NIES2561@NIES-2591@NIES2591@NIES-2592@NIES2592@NIES-2593@NIES2593@NIES-2594@NIES2594@NIES-2595@NIES2595@NIES-2596@NIES2596@NIES-2597@NIES2597@NIES-2598@NIES2598@NIES-2599@NIES2599@NIES-2600@NIES2600@NIES-2601@NIES2601@NIES-2602@NIES2602@NIES-2603@NIES2603@NIES-2604@NIES2604@NIES-2605@NIES2605@NIES-2606@NIES2606@NIES-2607@NIES2607@NIES-2608@NIES2608@NIES-2609@NIES2609@NIES-2610@NIES2610@NIES-2611@NIES2611@NIES-2612@NIES2612@NIES-2613@NIES2613@NIES-2617@NIES2617@NIES-2618@NIES2618@NIES-2619@NIES2619@NIES-2620@NIES2620@NIES-2621@NIES2621@NIES-2622@NIES2622@NIES-2623@NIES2623@NIES-2624@NIES2624@NIES-2625@NIES2625@NIES-2626@NIES2626@NIES-2627@NIES2627@NIES-2628@NIES2628@NIES-2629@NIES2629@NIES-2465@NIES2465@NIES-2466@NIES2466@NIES-2467@NIES2467@NIES-2468@NIES2468@NIES-2469@NIES2469@NIES-2470@NIES2470@NIES-2471@NIES2471@NIES-2472@NIES2472@NIES-2473@NIES2473@NIES-2474@NIES2474@NIES-2475@NIES2475@NIES-2476@NIES2476@NIES-2477@NIES2477@NIES-2478@NIES2478@NIES-2479@NIES2479@NIES-2480@NIES2480@NIES-2481@NIES2481@NIES-2482@NIES2482@NIES-2483@NIES2483@NIES-2484@NIES2484@NIES-2485@NIES2485@NIES-2486@NIES2486@NIES-2487@NIES2487@NIES-2488@NIES2488@NIES-2489@NIES2489
2192@Tanabe, Y. & Watanabe, M. M. @Local expansion of a panmictic lineage of water bloom-forming cyanobacterium Microcystis aeruginosa. @PLoS One, @6,@e17085 (article ID).@2011@@@NIES-1242@NIES1242@NIES-1243@NIES1243@NIES-1244@NIES1244@NIES-1245@NIES1245@NIES-1251@NIES1251@NIES-1252@NIES1252@NIES-1253@NIES1253@NIES-1254@NIES1254@NIES-2088@NIES2088@NIES-2089@NIES2089@NIES-2466@NIES2466@NIES-2467@NIES2467@NIES-2468@NIES2468@NIES-2471@NIES2471@NIES-2472@NIES2472@NIES-2473@NIES2473@NIES-2474@NIES2474@NIES-2475@NIES2475@NIES-2476@NIES2476@NIES-2477@NIES2477@NIES-2478@NIES2478@NIES-2479@NIES2479@NIES-2482@NIES2482@NIES-2483@NIES2483@NIES-2484@NIES2484@NIES-2485@NIES2485@NIES-2486@NIES2486@NIES-2487@NIES2487@NIES-2488@NIES2488@NIES-2489@NIES2489@NIES-2491@NIES2491@NIES-2492@NIES2492@NIES-2493@NIES2493@NIES-2494@NIES2494@NIES-2495@NIES2495@NIES-2496@NIES2496@NIES-2542@NIES2542@NIES-2543@NIES2543@NIES-2544@NIES2544@NIES-2545@NIES2545@NIES-2546@NIES2546@NIES-2547@NIES2547@NIES-2548@NIES2548@NIES-2550@NIES2550@NIES-2551@NIES2551@NIES-2552@NIES2552@NIES-2553@NIES2553@NIES-2554@NIES2554@NIES-2556@NIES2556@NIES-2557@NIES2557@NIES-2558@NIES2558@NIES-2559@NIES2559@NIES-2561@NIES2561@NIES-2591@NIES2591@NIES-2592@NIES2592@NIES-2593@NIES2593@NIES-2594@NIES2594@NIES-2595@NIES2595@NIES-2596@NIES2596@NIES-2597@NIES2597@NIES-2598@NIES2598@NIES-2599@NIES2599@NIES-2600@NIES2600@NIES-2601@NIES2601@NIES-2602@NIES2602@NIES-2603@NIES2603@NIES-2604@NIES2604@NIES-2605@NIES2605@NIES-2606@NIES2606@NIES-2607@NIES2607@NIES-2608@NIES2608@NIES-2609@NIES2609@NIES-2610@NIES2610@NIES-2611@NIES2611@NIES-2612@NIES2612@NIES-2617@NIES2617@NIES-2618@NIES2618@NIES-2619@NIES2619@NIES-2620@NIES2620@NIES-2621@NIES2621@NIES-2622@NIES2622@NIES-2623@NIES2623@NIES-2624@NIES2624@NIES-2625@NIES2625@NIES-2626@NIES2626@NIES-2627@NIES2627@NIES-2628@NIES2628@NIES-2629@NIES2629@NIES-100@NIES100@NIES-105@NIES105@NIES-106@NIES106@NIES-108@NIES108@NIES-109@NIES109@NIES-110@NIES110@NIES-299@NIES299@NIES-478@NIES478@NIES-1050@NIES1050@NIES-1051@NIES1051@NIES-1052@NIES1052@NIES-1053@NIES1053@NIES-1056@NIES1056@NIES-1057@NIES1057@NIES-1059@NIES1059@NIES-1060@NIES1060@NIES-1061@NIES1061@NIES-1065@NIES1065@NIES-1066@NIES1066@NIES-1068@NIES1068@NIES-1075@NIES1075@NIES-1076@NIES1076@NIES-1090@NIES1090@NIES-1092@NIES1092@NIES-1093@NIES1093@NIES-1094@NIES1094@NIES-1096@NIES1096@NIES-1098@NIES1098@NIES-1100@NIES1100@NIES-1101@NIES1101@NIES-1103@NIES1103@NIES-1104@NIES1104@NIES-1106@NIES1106@NIES-1107@NIES1107@NIES-1115@NIES1115@NIES-1125@NIES1125@NIES-1127@NIES1127@NIES-1128@NIES1128@NIES-1129@NIES1129@NIES-1130@NIES1130@NIES-1133@NIES1133@NIES-1134@NIES1134@NIES-1135@NIES1135@NIES-1136@NIES1136@NIES-1137@NIES1137@NIES-1138@NIES1138@NIES-1140@NIES1140@NIES-1143@NIES1143@NIES-1144@NIES1144@NIES-1145@NIES1145@NIES-1146@NIES1146@NIES-1147@NIES1147@NIES-1148@NIES1148@NIES-1149@NIES1149@NIES-1151@NIES1151@NIES-1152@NIES1152@NIES-1153@NIES1153@NIES-1155@NIES1155@NIES-1156@NIES1156@NIES-1157@NIES1157@NIES-1159@NIES1159@NIES-1160@NIES1160@NIES-1161@NIES1161@NIES-1162@NIES1162@NIES-1163@NIES1163@NIES-1164@NIES1164@NIES-1170@NIES1170@NIES-1171@NIES1171@NIES-1172@NIES1172@NIES-1173@NIES1173@NIES-1176@NIES1176@NIES-1179@NIES1179@NIES-1180@NIES1180@NIES-1181@NIES1181@NIES-1184@NIES1184@NIES-1186@NIES1186@NIES-1216@NIES1216@NIES-1217@NIES1217@NIES-1218@NIES1218@NIES-1220@NIES1220@NIES-1221@NIES1221@NIES-1223@NIES1223@NIES-1224@NIES1224@NIES-1225@NIES1225@NIES-1226@NIES1226@NIES-1227@NIES1227@NIES-1228@NIES1228@NIES-1229@NIES1229@NIES-1231@NIES1231@NIES-1232@NIES1232@NIES-1233@NIES1233@NIES-1234@NIES1234@NIES-1235@NIES1235@NIES-1236@NIES1236@NIES-1237@NIES1237@NIES-1238@NIES1238@NIES-1239@NIES1239@NIES-1240@NIES1240@NIES-1241@NIES1241@NIES-1105@NIES1105@NIES-1058@NIES1058@NIES-1091@NIES1091@NIES-2480@NIES2480@NIES-1070@NIES1070@NIES-111@NIES111@NIES-107@NIES107@NIES-1185@NIES1185@NIES-1174@NIES1174@NIES-1177@NIES1177@NIES-1175@NIES1175@NIES-112@NIES112@NIES-1213@NIES1213@NIES-1214@NIES1214@NIES-1215@NIES1215@NIES-1113@NIES1113@NIES-1108@NIES1108@NIES-1102@NIES1102@NIES-1097@NIES1097@NIES-1126@NIES1126@NIES-1067@NIES1067@NIES-1139@NIES1139@NIES-1141@NIES1141@NIES-1142@NIES1142@NIES-1150@NIES1150@NIES-1219@NIES1219@NIES-1222@NIES1222@NIES-1230@NIES1230@NIES-1063@NIES1063@NIES-1064@NIES1064@NIES-1069@NIES1069@NIES-1077@NIES1077@NIES-1095@NIES1095@NIES-1055@NIES1055@NIES-1183@NIES1183@NIES-1131@NIES1131@NIES-1054@NIES1054@NIES-44@NIES44@NIES-2481@NIES2481@NIES-1122@NIES1122@NIES-2469@NIES2469@NIES-2470@NIES2470@NIES-88@NIES88@NIES-2549@NIES2549@NIES-843@NIES843@NIES-87@NIES87@NIES-89@NIES89@NIES-99@NIES99@NIES-2560@NIES2560@NIES-2555@NIES2555@NIES-1124@NIES1124@NIES-1209@NIES1209@NIES-2465@NIES2465@NIES-2090@NIES2090@NIES-2613@NIES2613@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1211@NIES1211@NIES-98@NIES98@NIES-102@NIES102@NIES-91@NIES91@NIES-2091@NIES2091@NIES-1123@NIES1123@NIES-1062@NIES1062@NIES-901@NIES901@NIES-2490@NIES2490@NIES-1132@NIES1132@NIES-1114@NIES1114@NIES-298@NIES298@NIES-101@NIES101@NIES-103@NIES103@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
2193@Tanioka, Y., Miyamoto, E., Yabuta, Y., Ohnishi, K., Fujita, T., Yamaji, R., Misono, H., Shigeoka, S., Nakano, Y., Inui, H., Watanabe, F. @Methyladeninylcobamide functions as the cofactor of methionine synthase in a cyanobacterium, Spirulina platensis NIES-39. @FEBS Lett., @584,@3223-3226.@2010@@adeninylcobamide; cobalamin; cyanobacteria; methionine synthase; pseudovitamine B12; Spirulina platensis@NIES-39@NIES39
2194@Tomioka, N., Nagai, T., Kawasaki, T., Imai, A., Kohata, K. @Quantification of Microcystis in a eutrophic lake by simple DNA extraction and SYBR green real-time PCR. @Microbes Environ.,@23,@306-312.@2008@@Microcystis; quantification; SYBR Green I; DNA extraction; eutrophic lake@NIES-611@NIES611@NIES-204@NIES204@NIES-843@NIES843@NIES-99@NIES99@NIES-98@NIES98@NIES-946@NIES946@NIES-961@NIES961@NIES-604@NIES604
2195@Tuji, A. & Niiyama, Y. @Phylogenetic study by the morphological and molecular analyses of Japanese planktonic Anabaena species. @Bull. Natl. Mus. Nat. Sci., Ser. B, @36,@71-80.@2010@@Anabaena; Anabaena oumiana; culture, Japan, morphology, planktonic; rbcL; rbcX; rDNA; Sphaerospermum oumianum (M. Watanabe) Tuji et Niiyama comb. nov.@NIES-1929@NIES1929@NIES-822@NIES822@NIES-826@NIES826@NIES-1642@NIES1642@NIES-1643@NIES1643@NIES-1646@NIES1646@NIES-1651@NIES1651@NIES-1652@NIES1652@NIES-1653@NIES1653@NIES-1657@NIES1657@NIES-1658@NIES1658@NIES-1665@NIES1665@NIES-1667@NIES1667@NIES-1668@NIES1668@NIES-1672@NIES1672@NIES-1673@NIES1673@NIES-1674@NIES1674@NIES-1678@NIES1678@NIES-1683@NIES1683@NIES-1690@NIES1690@NIES-1693@NIES1693@NIES-1694@NIES1694@NIES-1696@NIES1696@NIES-1697@NIES1697@NIES-1875@NIES1875@NIES-1878@NIES1878@NIES-1880@NIES1880@NIES-1884@NIES1884@NIES-1887@NIES1887@NIES-1891@NIES1891@NIES-1894@NIES1894@NIES-1895@NIES1895@NIES-1904@NIES1904@NIES-1909@NIES1909@NIES-1920@NIES1920@NIES-1921@NIES1921@NIES-1931@NIES1931@NIES-1934@NIES1934@NIES-1939@NIES1939@NIES-1942@NIES1942@NIES-1950@NIES1950@NIES-807@NIES807@NIES-808@NIES808@NIES-820@NIES820@NIES-1639@NIES1639@NIES-1677@NIES1677@NIES-1922@NIES1922
2196@Yamamoto, Y. & Shiah, F.-K. @Relationship between cell growth and frequency of dividing cells of Microcystis aeruginosa. @Plankton Benthos Res., @5,@131-135.@2010@@frequency of dividing cells; incubation experiment; Microcystis aeruginosa; specific growth rate@NIES-1355@NIES1355
2197@Yokoyama, A., Takahashi, F., Kataoka, H., Hara, Y., Nozaki, H. @Evolutionary analysis of the nuclear-encoded photosynthetic gene psbO from tertiary plastid-containing algae in Dinophyta. @J. Phycol., @47,@407-414.@2011@@diatoms; Dinophyta; endosymbiosis; Haptophyta; N-terminal region; phylogeny; plastid; psbO genes@NIES-712@NIES712@NIES-274@NIES274
2198@Yubuki, N., Nakayama, T., Inouye, I. @A unique life cycle and perennation in a colorless chrysophyte Spumella sp. @J. Phycol., @44,@164-172.@2008@@cannibalism; Chrysophyceae; colorless chrysophyte; doubling time; growth rate; heterotrophic flagellate@NIES-1846@NIES1846
2199@Nakada, T., Nozaki, H., Tomita, M. @Light microscopy and phylogenetic analyses of Chlamydomonas species (Volvocales, Chlorophyceae). I. Chlamydomonas pseudomacrostigma and Chlamydomonas media. @Acta Phytotax. Geobot., @62,@69-78.@2012@@18S rRNA; Chlamydomonas media; Chlamydomonas pseudomacrostigma; light microscopy; molecular phylogeny, phycology@NIES-2743@NIES2743@NIES-2744@NIES2744
2200@Isaka, N., Kawai-Toyooka, H., Matsuzaki, R., Nakada, T., Nozaki, H. @Description of two new monoecious species of Volvox sect. Volvox (Volvocaceae, Chlorophyceae), based on comparative morphology and molecular phylogeny of cultured material.@J. Phycol., @48,@759-767.@2012@@Chlorophyceae; cultures; molecular phylogeny; morphology; taxonomy; Volvocaceae; Volvox ferrisii sp. nov.; Volvox kirkiorum sp. nov.; Volvox sect. Volvox@NIES-2737@NIES2737@NIES-2738@NIES2738@NIES-2739@NIES2739@NIES-543@NIES543@NIES-2740@NIES2740@NIES-2736@NIES2736
2201@Shiratori, T., Yabuki, A., Ishida, K-I. @Esquamula lacrimiformis n.g., n. sp., a new member of Thaumatomonads that lacks siliceous scales.@J. Eucaryot. Microbiol.,@59,@527-536.@2012@@Cercozoa; extrusome; microbody; phylogeny; taxonomy; ultrastructure@NIES-2745@NIES2745
2202@Wakahama, T., Laza-Martínez, A., Mohd Taha., A.I.B.H., Okuyama, H., Yoshida, K., Kogame, K., Awai, K., Kawachi, M., Maoka, T., Takaichi, S. @Structural confirmation of a unique carothenoid lactoside, P457, in Symbiodinium sp. strain NBRC 104787 isolated from a sea anemone and ITS distribution in dinoflagellates and various marine organisms.@J. Phycol., @48,@1392-1402.@2012@@carotenoid; dinoflagellates; P457; peridinin; Symbiodinium; symbiosis@NIES-2638@NIES2638@NIES-2639@NIES2639@NIES-2640@NIES2640@NIES-2642@NIES2642@NIES-2746@NIES2746@NIES-48@NIES48@NIES-1409@NIES1409
2203@Yamada, E., Hirota, T., Hatori, N., Kitao, Y., Fuse, Y., Aoki, S., Karatani, H., Matsunaga, T. @Characterization of protein-like fluorophores released from lake phytoplankton on the basis of fractionation and electrophoresis.@Anal. Sci., @28,@595-600.@2012@@@NIES-109@NIES109@NIES-275@NIES275@NIES-665@NIES665
2204@Yamada, E., Ohara, S., Uehara, T., Hirota, T., Hatori, N., Fuse, Y., Aoki, S. @Biodegradation of dissolved organic matter (DOM) released from phytoplankton in Lake Biwa.@Anal. Sci., @28,@675-681.@2012@@@NIES-109@NIES109@NIES-275@NIES275@NIES-665@NIES665
2205@Demura, M., Noël, M.-H., Kasai, F., Watanabe, M. M., Kawachi, M. @Taxonomic revision of Chattonella antiqua, C. marina and C. ovata (Raphidophyceae) based on their morphological characteristics and genetic diversity.@Phycologia, @48,@518-535.@2009@@Chattonella antiqua; Chattonella marina; Chattonella ovata; COI; COX1; Genetic diversity; ITS; Microsatellite; Morphology; Phylogeny; Population; Raphidophyceae; rbcL; Speciation; Taxonomy@NIES-1977@NIES1977@NIES-1981@NIES1981@NIES-1980@NIES1980@NIES-2@NIES2@NIES-116@NIES116@NIES-1978@NIES1978@NIES-2383@NIES2383@NIES-83@NIES83@NIES-114@NIES114@NIES-146@NIES146@NIES-293@NIES293@NIES-1986@NIES1986@NIES-2406@NIES2406@NIES-85@NIES85@NIES-113@NIES113@NIES-1@NIES1@NIES-3@NIES3@NIES-14@NIES14@NIES-5@NIES5@NIES-1976@NIES1976@NIES-716@NIES716@NIES-118@NIES118@NIES-161@NIES161@NIES-557@NIES557@NIES-603@NIES603@NIES-671@NIES671@NIES-849@NIES849@NIES-1974@NIES1974@NIES-1975@NIES1975@NIES-2391@NIES2391@NIES-2405@NIES2405@NIES-84@NIES84@NIES-10@NIES10@NIES-561@NIES561@NIES-6@NIES6@NIES-9@NIES9
2206@Ohnuma, M., Kuroiwa, T., Tanaka, K. @Optimization of cryopreservation conditions for the unicellular red alga Cyanidioschyzon merolae. @J. Gen. Appl. Micobiol.,, @57,@137-143.@2011@@cryoinjury; cryopreservation; Cyanidioschyzon merolae; unicellular red alga@NIES-3377@NIES3377@NIES-1332@NIES1332
2207@Nakazawa, A. & Nishii, I. @Amidic and acetonic cryoprotectants improve cryopreservation of volvocine green algae. @CryoLetters, @33,@201-212.@2012@@cryopreservation; dimethylformamide; hydroxyacetone; Volvocaceae; Volvox; Chlamydomonas@NIES-1361@NIES1361@NIES-717@NIES717@NIES-729@NIES729@NIES-2236@NIES2236@NIES-730@NIES730@NIES-731@NIES731@NIES-545@NIES545@NIES-564@NIES564@NIES-574@NIES574@NIES-721@NIES721@NIES-1331@NIES1331@NIES-468@NIES468@NIES-418@NIES418@NIES-728@NIES728@NIES-1710@NIES1710
2208@Watanuki, T., Matsushita, K., Nishina, M., Hori, E., Kato, K.@@J. Phys. Fit. Nutr. Immunol.,@@40-44 (in Japanese).@1994@@@NIES-3744@NIES3744
2209@Yoshida, M., Yoshida, T., Yoshida-Takashima, Y., Kashima, A., Hiroishi, S.@Real-time PCR detection of host-mediated cyanophage gene transcripts during infection of a natural Microcystis aeruginosa population.@Microbes Environ.,@25,@211-215.@2010@@cyanophage; Microcystis aeruginosa; real-time RT-PCR; succession; toxic cyanobacteria@NIES-298@NIES298
2210@Kuno, S., Yoshida, T., Kamikawa, R., Hosoda, N., Sako, Y.@The distribution of a phage-related insertion sequence element in the cyanobacterium, Microcystis aeruginosa.@Microbes Environ.,@25,@295-301.@2010@@cyanobacteria; Microcystis; cyanophage; insertion sequence; horizontal gene transfer@NIES-1098@NIES1098@NIES-1105@NIES1105@NIES-1058@NIES1058@NIES-1070@NIES1070@NIES-112@NIES112@NIES-1067@NIES1067@NIES-1086@NIES1086@NIES-843@NIES843@NIES-99@NIES99@NIES-98@NIES98@NIES-102@NIES102@NIES-91@NIES91@NIES-298@NIES298@NIES-101@NIES101@NIES-604@NIES604@NIES-90@NIES90
2211@Yoshida, T., Takashima, Y., Tomaru Y., Shirai, Y., Takao, Y., Hiroishi, S., Nagasaki, K.@Isolation and characterization of a cyanophage infecting the toxic cyanobacterium Microcystis aeruginosa.@Appl. Environ. Microbiol.,@72,@1239-1247.@2006@@@NIES-111@NIES111@NIES-112@NIES112@NIES-44@NIES44@NIES-87@NIES87@NIES-98@NIES98@NIES-102@NIES102@NIES-298@NIES298@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
2212@Yoshida, T., Takashima, Y., Tomaru Y., Shirai, Y., Takao, Y., Hiroishi, S., Nagasaki, K.@Intricate interactions between the bloom-forming cyanobacterium Microcystis aeruginosa and foreign genetic elements, revealed by diversified clustered regularly interspaced short palindromic repeat (CRISPR) signatures.@Appl. Environ. Microbiol.,@78,@5353-5360.@2012@@@NIES-87@NIES87@NIES-102@NIES102@NIES-298@NIES298
2213@Yoshida, T., Takashima, Y., Tomaru Y., Shirai, Y., Takao, Y., Hiroishi, S., Nagasaki, K.@A protein binding to an upstream sequence of ftsZ involved in coordination of DNA replication and cell division in Microcystis aeruginosa.@Fish. Sci.,@78,@375-379.@2012@@Cyanobacteria; Microcystis; Cell division; DNA replication; ftsZ@NIES-298@NIES298
2214@Yamagishi, T. & Kawai, H.@Cytoskeleton organization during the cell cycle in two stramenopile microalgae, Ochromonas danica (Chrysophyceae) and Heterosigma akashiwo (Raphidophyceae), with special reference to F-actin organization and its role in cytokinesis.@Protist,@163,@686-700.@2012@@Cytokinesis; F-actin; Heterosigma; microtubule; Ochromonas; phalloidin; stramenopiles@NIES-6@NIES6
2215@Shao, J., Xu, Y., Wang, Z., Jiang, Y., Yu, G., Peng, X., Li, R. @Elucidating the toxicity targets of β-ionone on photosynthetic system of Microcystis aeruginosa NIES-843 (cyanobacteria).@Aquat. Toxicol.,@104,@48-55.@2011@@Microcystis aeruginosa; Photosynthesis; Gene expression; Chlorophyll a fluorescence@NIES-843@NIES843
2216@Shao, J., Wang, Z., Liu, Y., Liu, H., Peng, X., Wei, X., Lei, M., Li, R.@Physiological responses of Microcystis aeruginosa NIES-843 (cyanobacterium) under the stress of chitosan modified kaolinite (CMK) loading.@Ecotoxicology,@21,@698-704.@2012@@Physiological responses; Microcystis aeruginosa; Chitosan modified kaolinite@NIES-843@NIES843
2217@Matsumoto, T., Kawachi, M., Miyashita, H., Inagaki, Y.@Prasinoxanthin is absent in the green-colored dinoflagellate Lepidodinium chlorophorum strain NIES-1868: pigment composition and 18S rRNA phylogeny.@J. Plant Res.,@125,@705-711.@2012@@Plastid replacement; Tertiary endosymbiosis; Serial secondary endosymbiosis@NIES-1411@NIES1411
2218@Yamaguchi, H., Nakayama, T., Murakami, A., Inouye, I.@Phylogeny and taxonomy of the Raphidophyceae (Heterokontophyta) and Chlorinimonas sublosa gen. et sp. nov., a new marine sand-dwelling raphidophyte.@J. Plant Res.,@123,@333-342.@2010@@Chlorinimonas sublosa gen. et sp. nov.; Phylogeny; Raphidophyceae; Taxonomy; Ultrastructure@NIES-1808@NIES1808@NIES-558@NIES558@NIES-1380@NIES1380@NIES-1809@NIES1809
2219@Yamaguchi, H., Suda, S., Nakayama, T., Pienaar, RN., Chihara, M., Inouye, I.@Taxonomy of Nephroselmis viridis sp. nov. (Nephroselmidophyceae, Chlorophyta), a sister marine species to freshwater N. olivacea.@J. Plant Res.,@124,@49-62.@2011@@18S rDNA; Intron; Nephroselmis viridis; Phylogeny; Prasinophyceae; Ultrastructure@NIES-486@NIES486
2220@Rodríguez-Salinas, E., Riveros-Rosas, H., Li, ZK., Fučíková, K., Brand JJ., Lewis, LA., González-Halphen, D.@Lineage-specific fragmentation and nuclear relocation of the mitochondrial cox2 gene in chlorophycean green algae (Chlorophyta).@Mol. Phylogenet. Evol.,@64,@166-176.@2012@@Mitochondrial genes; Cytochrome oxidase; Chlorophyte algae; Chlorophyceae; Gene migration; Gene fragmentation@NIES-484@NIES484@NIES-360@NIES360
2221@Mogi, Y., Hamaji, T., Suzuki, M., Ferris, P., Mori, T., Kabeya, Y., Miyagishima, S., Nozaki, H.@Evidence for tubular mating structures induced in each mating type of heterothallic Gonium pectorale (Volvocales, Chlorophyta).@J. Phycol., @48,@670-674.@2012@@bilateral mating papilla; Chlorophyta; Gonium pectorale; isogamete; mating type; sexual reproduction; tubular mating structure; Volvocales@NIES-1711@NIES1711@NIES-1710@NIES1710
2222@Yoshida, T., Nagasaki, K., Takashima, Y., Shirai, Y., Tomaru, Y., Takao, Y., Sakamoto, S., Hiroishi, S., Ogata, H.@Ma-LMM01 infecting toxic Microcystis aeruginosa illuminates diverse cyanophage genome strategies.@J. Bacteriol., @190,@1762-1772.@2008@@@NIES-298@NIES298
2223@Yoshida, M., Yoshida, T., Satomi, M., Takashima, Y., Hosoda, N., Hiroishi, S.@Intra-specific phenotypic and genotypic variation in toxic cyanobacterial Microcystis aeruginosa.@J. Appl. Phycol., @105,@407-415.@2008@@API ZYM; diversity; microcystin; Microcystis; phylogeny; population; taxonomy; toxic; cyanobacteria@NIES-1070@NIES1070@NIES-1105@NIES1105@NIES-1058@NIES1058@NIES-1091@NIES1091@NIES-112@NIES112@NIES-1055@NIES1055@NIES-102@NIES102@NIES-1062@NIES1062@NIES-298@NIES298@NIES-101@NIES101@NIES-103@NIES103@NIES-604@NIES604
2224@Du, HW., Yang, LY., Wu, J., Xiao, L., Wang, XL., Jiang, LJ.@Simultaneous removal of phosphorus and nitrogen in a sequencing batch biofilm reactor with transgenic bacteria expressing polyphosphate kinase.@Appl. Microbiol. Biotechnol.,@96,@265-272.@2012@@Poly-phosphate kinase gene; Pseudomonas putida; Sequencing batch biofilm reactor; Phosphorus removal; Nitrogen removal@NIES-843@NIES843
2225@Rhee, JS., Ki, JS., Kim, BM., Hwang, SJ., Choi, IY., Lee, JS. @HspA and HtpG Enhance Thermotolerance in the Cyanobacterium, Microcystis aeruginosa NIES-298.@J. Microbiol. Biotechnol.,@22,@118-125.@2012@@Cyanobacteria; Microcystis aeruginosa; heat shock protein; thermotolerance@NIES-298@NIES298
2226@Qiu, XC., Shimasaki, Y., Tsuyama, M., Tamada, T., Kuwahara, R., Kawaguchi, M., Honda, M., Gunjikake, H., Tasmin, R., Shimizu, M., Sato, Y., Kato-Unoki, Y., Nakashima, T., Matsubara, T., Yamasaki, Y., Ichinose, H., Wariishi, H., Honjo, T., Oshima, Y.@Growth-phase dependent variation in photosynthetic activity and cellular protein expression profile in the harmful Raphidophyte Chattonella antiqua.@Biosci. Biotechnol. Biochem.,@77,@46-52.@2013@@Chattonella antiqua; growth potential; maximum quantum yield of photosystem II; physiological status; proteomic analysis@NIES-1@NIES1
2227@Qiu, XC., Yamasaki, Y., Shimasaki, Y., Gunjikake, H., Honda, M., Kawagushi, M., Matsubara, T., Nagasoe, S., Etoh, T., Matsui, S., Honjo, T., Oshima, Y.@Allelopathy of the raphidophyte Heterosigma akashiwo against the dinoflagellate Akashiwo sanguinea is mediated via allelochemicals and cell contact.@Mar. Ecol. Prog. Ser.,@446,@107-118.@2012@@Heterosigma akashiwo; Akashiwo sanguinea; Allelopathy; Polysaccharide−protein complex; Cell contact; Growth interaction; Growth simulation@NIES-324@NIES324@NIES-10@NIES10
2228@Rhee, JS., Choi, BS., Han, J., Hwang, SJ., Choi, IY., Lee, JS.@Draft genome database construction from four strains (NIES-298, FCY-26, -27, and -28) of the Cyanobacterium Microcystis aeruginosa.@J. Microbiol. Biotechnol.,@22,@1208-1213.@2012@@Cyanobacteria; Microcystis aeruginosa; genome@NIES-298@NIES298
2229@Qiu, XC., Yamasaki, Y., Shimasaki, Y., Gunjikake, H., Matsubara, T., Nagasoe, S., Etoh, T., Matsui, S., Honjo, T., Oshima, Y.@Growth interactions between the raphidophyte Chattonella antiqua and the dinoflagellate Akashiwo sanguinea.@Harmful Algae,@11,@81-87.@2011@@Akashiwo sanguinea; Allelopathy; Cell contact; Chattonella antiqua; Growth interaction; Growth simulation@NIES-1@NIES1
2230@Hamaji, T., Ferris, J. P., Nishii, I., Nishimura, Y., Nozaki, H.@Distribution of the sex-determining geneMID and molecular correspondence of mating types within the isogamous genus Gonium (Volvocales, Chlorophyta).@PLoS One, @8,@e64385 (article ID).@2013@@@NIES-1039@NIES1039@NIES-655@NIES655@NIES-2457@NIES2457@NIES-653@NIES653@NIES-852@NIES852@NIES-652@NIES652@NIES-851@NIES851@NIES-1038@NIES1038@NIES-1711@NIES1711@NIES-1708@NIES1708@NIES-2455@NIES2455@NIES-654@NIES654@NIES-1710@NIES1710
2231@Akcaalan, R., Young, FM., Metcalf, JS., Morrison, LF., Albay, M., Codd, GA.@Microcystin analysis in single filaments of Planktothrix spp. in laboratory cultures and environmental blooms.@Water Res., @40,@1583-1590.@2006@@Planktothrix rubescens; Planktothrix agardhii; Microcystin immunoassay; Single filaments; Cyanobacteria@NIES-595@NIES595
2232@Miklaszewska, M., Waleron, M., Morin, N., Calusinska, M., Wilmotte, A., De Marsac, NT., Rippka, R., Waleron, K.@Elucidation of the gas vesicle gene clusters in cyanobacteria of the genus Arthrospira (Oscillatoriales, Cyanophyta) and correlation with ITS phylogeny.@Eur. J. Phycol.,@47,@233-244.@2012@@Arthrospira; cyanobacteria; gas vacuoles; gas vesicles; gvpA; gvpC; gvpN; internal transcribed spacer (ITS)@NIES-39@NIES39
2233@Gontcharov, A. A., Marin, B., Melkonian, M.@Molecular phylogeny of conjugating green algae (Zygnemophyceae, Streptophyta) inferred from SSU rDNA sequence comparisons.@J. Mol. Evol., @56,@89-104.@2003@@Green algae; Streptophyta; Zygnemophyceae; Desmids; Molecular phylogeny; SSU rDNA@NIES-309@NIES309@NIES-125@NIES125
2234@Shao, J., Jiang, Y., Wang, Z., Peng, L., Luo, S., Gu, J., Li, R.@Interactions between algicidal bacteria and the cyanobacterium Microcystis aeruginosa: lytic characteristics and physiological responses in the cyanobacteria.@Int. J. Environ. Sci. Technol.,@11,@469-476.@2014@@Bacillus sp.; Gene expressions; Lytic characteristics; Microcystis aeruginosa; Oxidative stress; Photosynthesis inhibition@NIES-843@NIES843
2235@Blanc, G., Agarkova, I., Grimwood, J., Kou, A., Brueggeman, A., Dunigan, D. D., Gurnon, J., Ladunga, I., Lindquist, E., Lucas, S., Pangilinan, J., Proschold, T., Salamov, A., Schmutz, J., Weeks, D., Yamada, T., Lomsadze, A., Borodovsky, M., Claverie, J. M., Grigoriev, I. V., Van Etten, J. L.@The genome of the polar eukaryotic microalga Coccomyxa subellipsoidea reveals traits of cold adaptation.@Genome Biol.,@13,@R39 (article ID). @2012@@@NIES-2166@NIES2166
2236@Hamaji, T., Smith, DR., Noguchi, H., Toyoda, A., Suzuki, M., Kawai-Toyooka, H., Fujiyama, A., Nishii, I., Marriage, T., Olson, B. J. S. C., Nozaki, H.@Mitochondrial and plastid genomes of the colonial green alga Gonium pectorale give insights into the origins of organelle DNA architecture within the Volvocales.@PLoS One, @8,@e57177 (article ID).@2013@@@NIES-2863@NIES2863
2237@Niiyama, Y., Tuji, A., Tsujimura, S.@Umezakia natans M.WATAN. does not belong to Stigonemataceae but to Nostocaceae.@Fottea, @11,@163-169.@2011@@Anabaena bergii; Aphanizomenon ovalisporum; Nostocaceae; Stigonemataceae; Umezakia natans; 16S rDNA@NIES-2665@NIES2665
2238@Krienitz, L., Bock, C., Nozaki, H., Wolf, M.@SSU rRNA gene phylogeny of morphospecies affiliated to the bioassay alga "Selenastrum capricornutum" recovered the polyphyletic origin of crescent-shaped Chlorophyta.@J. Phycol., @47,@880-893.@2011@@Kirchneriella; Neocystis mucosa sp. nov..; Nephrochlamys; Raphidocelis; Rhombocystis; Selenastrum; SSU rRNA gene phylogeny; taxonomy; Tetranephris; ultrastructure@NIES-2713@NIES2713@NIES-2708@NIES2708@NIES-2710@NIES2710@NIES-2711@NIES2711@NIES-2709@NIES2709@NIES-2714@NIES2714@NIES-2712@NIES2712
2239@Ichinomiya, M., Yoshikawa, S., Kmiya, M., Ohki, K., Takaichi, S., Kuwata, A.@Isolation and characterization of Parmales (Heterokonta/Heterokontophyta/Stramenopiles) from the Oyashio region, Western North Pacific.@J. Phycol., @47,@144-151.@2011@@Bolidophyceae; diatoms; heterokonts; Parmales; PDMPO; phylogeny; stramenopiles; Triparma laevis@NIES-2682@NIES2682@NIES-2565@NIES2565
2240@Yamada, M., Katsuki, E., Otsubo, M., Kawaguchi, M., Ichimi, K., Keriyama, H., Tada, K., Harrison, P. J.@Species diversity of the genus Skeltonema (Bacillariophyceae) in the Industrial Harbor Dokai Bay, Japan.@J. Oceanogr., @66,@755-771.@2010@@Skeletonema; species diversity; isolation characteristics; Dokai Bay; LSU rDNA; SSU rDNA; SEM@NIES-2841@NIES2841@NIES-2843@NIES2843@NIES-2844@NIES2844@NIES-2839@NIES2839@NIES-2837@NIES2837@NIES-2838@NIES2838@NIES-2842@NIES2842
2241@Fujii, K., Nakashima, H., Hashidzume, Y.@Isolation of folate-producing microalgae, from oligotrophic ponds in Yamaguchi, Japan.@J. Appl. Microbiol., @108,@1421-1429.@2010@@B-vitamins; Chlamydomonas; Chlorococcum; folate; microalgae; thiamine@NIES-2849@NIES2849@NIES-2850@NIES2850@NIES-2851@NIES2851@NIES-2172@NIES2172@NIES-2235@NIES2235@NIES-2848@NIES2848
2242@Hoshina, R. & Imamura, N.@Phylogenetically close group I introns with different positions among Paramecium bursaria photobionts imply a primitive stage of intron diversification.@Mol. Biol. Evol., @26,@1309-1319.@2009@@degenerative homing; intron diversification; intron transposition; Paramecium bursaria symbiotic algae; reverse splicing@NIES-2541@NIES2541
2243@Tsuchikane, Y., Tsuchiya, M., Kokubun, Y., Abe, J., Sekimoto, H.@Conjugation processes of Penium margaritaceum (Zygnemophyceae, Charophyta).@Phycol. Res., @59,@74-82.@2011@@conjugation; homothallic; homothallism; Penium; selfing conjugation; sexual reproduction; zygospore@NIES-2667@NIES2667
2244@Aktas, T. S., Takeda, F., Maruo, C., Chiba, N., Nishimura, O.@A comparison of zeta potentials and coagulation behaviors of cyanobacteria amd algae.@Desalin. Water Treat.,@48,@294-301.@2012@@Zeta potential; Coagulation; Turbidity; Cyanobacteria; algae@NIES-2170@NIES2170@NIES-87@NIES87@NIES-1348@NIES1348
2245@Shao, J., Yu, G, Wang, Z., Wu, Z, Peng, X., Li, R. @Towards clarification of the inhibitory mechanism of wheat bran leachate on Microcystis aeruginosa NIES-843 (cyanobacteria): physiological responses.@Ecotoxicology,@19,@1634-1641.@2010@@Wheat bran leachate; Microcystis; Gene expression; Photosynthesis@NIES-843@NIES843
2246@Choi, G-G., Ahn, C-Y., Oh, H-M.@Phylogenetic relationships of Arthrospira strains inferred from 16S rRNA gene and cpcBA-IGS sequences.@Algae, @27,@75-82.@2012@@Arthrospira (Spirulina); cpcBA-IGS; phylogenetic analysis; 16S rRNA gene@NIES-46@NIES46@NIES-39@NIES39
2247@Yamane, K., Matsuyama, S., Igarashi, K., Utsumi, M., Shiraiwa, Y., Kuwabara, T.@Anaerobic coculture of microalgae with Thermosipho globiformans and Methanocaldococcus jannaschii at 68 ºC enhances generarion of n-alkane-rich biofules after pyrolysis.@Appl. Environ. Microbiol.,@79,@924-930.@2013@@@NIES-2258@NIES2258@NIES-837@NIES837
2248@Hodoki, Y., Ohbayashi, K., Kobayashi, Y., Okuda, N., Nakano, S.@Detection and identification of potentially toxic cyanobacteria: Ubiquitous distribution of Microcystis aeruginosa and Cuspidothrix issatschenkoi in Japanese lakes.@Harmful Algae,@16,@49-57.@2012@@Anatoxin-a; Automated rRNA intergenic spacer analysis (ARISA); Cuspidothrix issatschenkoi; Cyanotoxin; Microcystin; Microcystis aeruginosa@NIES-230@NIES230@NIES-905@NIES905@NIES-77@NIES77@NIES-512@NIES512@NIES-1669@NIES1669@NIES-1645@NIES1645@NIES-111@NIES111@NIES-1950@NIES1950@NIES-928@NIES928@NIES-40@NIES40@NIES-843@NIES843@NIES-1698@NIES1698@NIES-937@NIES937@NIES-30@NIES30@NIES-102@NIES102@NIES-2116@NIES2116@NIES-932@NIES932@NIES-991@NIES991@NIES-1729@NIES1729
2249@Kanda, H., Li, P., Ikehara, T., Yasumoto-Hirose, M.@Lipids extracted from several species of natural blue–green microalgae by dimethyl ether: Extraction yield and properties.@Fuel,@95,@88-92.@2012@@Lipids; Microalgae; Extraction; Dimethyl ether@NIES-595@NIES595@NIES-1263@NIES1263
2250@Hua, JM., Smith, D. R., Borza, T., Lee, R. W.@Similar relative mutation rates in the three genetic compartments of Mesostigma and Chlamydomonas.@Protist,@163,@105-115.@2012@@Chlamydomonas; genome architecture; Mesostigma; mutation rate; silent substitution rate@NIES-296@NIES296@NIES-476@NIES476
2251@Yang, EC., Boo, GH., Kim, HJ., Cho, SM., Boo, SM., Andersen, R. A., Yoon, HS.@Supermatrix data highlight the phylogenetic relationships of photosynthetic Stramenopiles.@Protist,@163,@217-231.@2012@@Heterokont algae; molecular phylogenetic analysis; multigene phylogeny; reduced flagellar clade; stramenochromes@NIES-1863@NIES1863@NIES-1864@NIES1864@NIES-293@NIES293@NIES-716@NIES716@NIES-622@NIES622
2252@Iida, H., Ota, S., Inouye, I.@Cleavage, incomplete inversion, and cytoplasmic bridges in Gonium pectorale (Volvocales, Chlorophyta).@J. Plant Res., @126,@699-707.@2013@@Cytoplasmic bridge; Gonium; Inversion; Multicellularity; Transmission electron microscopy; Volvocales@NIES-645@NIES645
2253@Luo, W., Kotut, K., Krienits, L.@Hidden diversity of eukaryotic plankton in the soda lake Nakuru, Kenya, during a phase of low salinity revealed by a SSU rRNA gene clone library.@Hydrobiologia, @702,@95-103.@2013@@Chlorophyta; clone library; lake Nakuru; lesser flamingo; phytoflagellates; Soda lakes; SSU rRNA@NIES-446@NIES446@NIES-1360@NIES1360
2254@Skjelbred, B., Horsberg, T. E., Tollefsen, K. E., Andersen, T., Edvardsen, B.@Toxicity of the ichthyotoxic marine flagellate Pseudochattonella (Dictyochophyceae, Heterokonta) assessed by six bioassays.@Harmful Algae,@10,@144-154.@2011@@Bioassays; Cytotoxicity assays; Fish exposure; Ichthyotoxicity; Pseudochattonella@NIES-670@NIES670
2255@Ueda, H., Otsuka, S., Senoo, K.@Community composition of bacteria co-cultivated with microalgae in non-axenic algal cultures.@Microbiol. Cult. Coll., @25,@21-25.@2009@@algal-bacterial association; bacteria; community composition; culture collection; microalgae@NIES-329@NIES329@NIES-640@NIES640@NIES-864@NIES864
2256@Nakanishi, K., Deuchi, K., Kuwano, K.@Cryopreservation of four valuable strains of microalgae, including viability and characteristics during 15 years of cryostorage.@J. Appl. Phycol., @24,@1381-1385.@2012@@Cryopreservation; Cryoprotectant; Chlorella vulgaris; Nannochloropsis oculata; Tetraselmis tetrathele; Chlorophyll@NIES-2170@NIES2170@NIES-2145@NIES2145
2257@Mochida, K., Onduka, T., Amano, H., Ito, M., Tanaka, H., Fujii, K.@Use of species sensitivity distributions to predict no-effect concentrations of an antifouling biocide, pyridine triphenylborane, for marine organisms.@Mar. Pollut. Bull.,@64,@2807-2814.@2012@@Algal growth inhibition test; Bayesian inference; Crustacean immobilization test; Fish acute toxicity; Primary risk analysis@NIES-324@NIES324
2258@Onduka, T., Kakuno, A., Kono, K., Ito, K., Mochida, K., Fujii, K.@Toxicity of chlorothalonil to marine organisms.@Fish. Sci.,@78,@1301-1308.@2012@@Antifouling biocides; Toxicity; Early-life-stage Toxicity test; Predicted no-effect concentration@NIES-324@NIES324
2259@Onduka, T., Ojima, D., Kakuno, A., Mochida, K., Ito, K., Koyama, J., Fujii, K.@Nitrated polycyclic aromatic hydrocarbons in the marine environment: acute toxicities for organisms at three trophic levels.@Jpn. J. Environ. Toxicol.,@15,@1-10.@2012@@alga; crustacean, fish, nitro-PAHs; predicted no effect concentrations@NIES-324@NIES324
2260@Gugger, M., Lyra, C., Henriksen, P., Coute, A., Humbert, J.-F., Sivonen, K.@Phylogenetic comparison of the cyanobacterial genera Anabena and Aphanizomenon.@Int. J. Syst. Evol. Microbiol.,@52,@1867-1880.@2002@@Anabaena; Aphanizomenon; 16S rDNA; 16S-23S rDNA; RubisCO spacer@NIES-81@NIES81
2261@Kushibiki, A., Yokoyama, A., Iwataki, M., Yokoyama, J., West, J. A., Hara, Y.@New unicellular red alga, Bulboplastis apyrenoidosa gen. et sp. nov. (Rhodellophyceae, Rhodophyta) from the mangroves of Japan: Phylogenetic and ultrastructural observations.@Phycol. Res.,@60,@114-122.@2012@@Bulboplastis apyrenoidosa; chloroplast; Golgi body; mannitol; nucleus-associated organelles; small subunit rDNA; ultrastructure; unicellular red alga@NIES-2742@NIES2742
2262@Tsuchikane, Y., Tsuchiya, M., Hindák, F., Nozaki, H., Sekimoto, H.@Zygospore formation between homothallic and heterothallic strains of Closterium.@Sex. Plant Reprod.,@25,@1-9.@2012@@Closterium; Conjugation; Homotallism; Heterothallism: Dexual reproduction; Zygospore@NIES-58@NIES58@NIES-59@NIES59@NIES-60@NIES60@NIES-61@NIES61@NIES-62@NIES62@NIES-63@NIES63@NIES-64@NIES64@NIES-65@NIES65@NIES-67@NIES67@NIES-69@NIES69@NIES-70@NIES70@NIES-261@NIES261@NIES-2666@NIES2666@NIES-68@NIES68
2263@Saldarriaga, J. F., Taylor, F. J. R., Keeling, P. J., Cavalier-Smith, T.@Dinoflagellate nuclear SSU rRNA phylogeny suggests multiple plastid losses and replacements.@J. Mol. Evol.,@53,@204-213.@2001@@Plastid; Dinoflagellates; Small subunit rRNA; Phylogeny; Endosymbiosis@NIES-304@NIES304@NIES-463@NIES463
2264@Tsuchikane, Y., Ito, M., Sekimoto, H.@Reproductive isolation by sex pheromones in the Closterium peracerosum-strigosum-littorale complex (Zygnematales, Charophyceae).@J. Phycol., @44,@1197-1203.@2008@@Closterium; conjugation; pheromone; reproductive isolation; sexual reproduction@NIES-68@NIES68@NIES-58@NIES58@NIES-53@NIES53@NIES-54@NIES54@NIES-59@NIES59@NIES-261@NIES261@NIES-229@NIES229@NIES-67@NIES67@NIES-65@NIES65@NIES-69@NIES69@NIES-70@NIES70@NIES-64@NIES64
2265@Takishita, K., Ishida, K-I., Ishikura, M., Maruyama, T.@Phylogeny of the psbC gene, coding a photosystem II component CP43, suggests separate origins for the peridinin- and fucoxanthin derivativee–containing plastids of dinoflagellates.@Phycologia,@44,@26-34.@2005@@@NIES-218@NIES218@NIES-331@NIES331
2266@Gottschling, M., Keupp, H., Plotner, J., Knop, R., Willems, H., Kirsch, M.@Phylogeny of calcareous dinoflagellates as inferred from ITS and ribosomal sequence data.@Mol. Phylogenet. Evol.,@36,@444-455.@2005@@5.8S rRNA; Calciodinellaceae; Internal transcribed spacer; Paleontology; Molecular systematics; Secondary structure@NIES-7@NIES7
2267@Matsumoto, T., Shinozaki, F., Chikuni, T., Yabuki, A., Takishita, K., Kawachi, M., Nakayama, T., Inouye, I., Hashimoto, T., Inagaki, Y.@Green-colored plastids in the dinoflagellate genus Lepidodinium are of core Chlorophyte origin.@Protist, @162,@268-276.@2011@@@NIES-1419@NIES1419@NIES-626@NIES626@NIES-2432@NIES2432
2268@Hoef-Emden, K.@Pitfalls of establishing DNA barcoding systems in protists: the cryptophyceae as a test case.@PLoS One, @7,@e43652 (article ID).@2012@@@NIES-713@NIES713@NIES-711@NIES711@NIES-714@NIES714@NIES-1370@NIES1370@NIES-1004@NIES1004@NIES-712@NIES712@NIES-706@NIES706@NIES-708@NIES708@NIES-274@NIES274
2269@Hu, ZY., Li, YT., Sommerfeld, M., Chen, F., Hu, Q.@Enhanced protection against oxidative stress in an astaxanthin-overproduction Haematococcus mutant (Chlorophyceae).@Eur. J. Phycol.,@43,@365-376.@2008@@astaxanthin; carotenogenesis; flow cytometry; Haematococcus pluvialis; oxidative stress; pigment mutant@NIES-144@NIES144
2270@Domínguez-Bocanegra, A. R., Legarreta, I. G., Jeronimo, F. M.@Influence of environmental and nutritional factors in the production of astaxanthin from Haematococcus pluvialis.@Bioresour. Technol.,@92,@209-214.@2004@@Haematococcus; Astaxanthin production; Light intensity; Aeration@NIES-144@NIES144
2271@Okamura, H., Piao, M., Aoyama, I., Sudo, M., Okubo, T., Nakamura, M.@Algal growth inhibition by river water pollutants in the agricultural area around Lake Biwa, Japan.@Environ. Pollut.,@117,@411-419.@2002@@Algal bioassay; Herbicide; Lake Biwa; Runoff; Simetryn@NIES-35@NIES35
2272@Ziemert, N., Ishida, K., Quillardet, P., Bouchier, C., Hertweck, C., de Marsac, N. T., Dittmann, E.@Microcyclamide biosynthesis in two strains of Microcystis aeruginosa: from structure to genes and vice versa.@Appl. Environ. Microbiol.,@74,@1791-1797.@2008@@@NIES-298@NIES298
2273@Keawtawee, T., Fukami, K., Songsangjinda, P., Muangyao, P.@Isolation and characterization of Noctiluca-killing bacteria from a shrimp aquaculture pond in Thailand.@Fish. Sci.,@77,@657-664.@2011@@Algicidal bacteria; Noctiluca scintillans; HABs; Shrimp aquacluture@NIES-1@NIES1@NIES-6@NIES6
2274@Liu, SH., Zhang, PY., Cong, BL., Liu, CL., Lin XZ., Shen, JH., Huang, XH.@Molecular cloning and expression analysis of a cytosolic Hsp70 gene from Antarctic ice algae Chlamydomonas sp. ICE-L.@Extremophiles,@14,@329-337.@2010@@Antarctic ice algae; Chlamydomonas sp. ICE-L; Heat shock protein; Hsp70; Psychrophile; Stress@NIES-843@NIES843
2275@Sharifah, E. N. & Eguchi, M.@Benefits of live phytoplankton, Chlorella vulgaris, as a biocontrol agent against fish pathogen Vibrio anguillarum.@Fish. Sci.,@78,@367-373.@2012@@Chlorella vulgaris; Vibrio anguillarum; Biocontrol; Sulfitobacter sp.@NIES-1269@NIES1269
2276@Sharifah, E. N. & Eguchi, M.@The phytoplankton Nannochloropsis oculata enhances the ability ofRoseobacter clade bacteria to inhibit the growth of Vibrio anguillarum.@PLoS One, @6,@e26756 (article ID).@2011@@@NIES-2145@NIES2145
2277@Yamasaki, Y., Ohmichi, Y., Hirose, M., Shikata, T., Shimasaki, Y., Oshima, Y., Honjo, T.@Low molecular weight allelochemicals produced by the diatom, Skeletonema costatum.@Thalassas,@28,@9-17.@2012@@Allelochemicals; Diatom; Growth inhibition; Heterosigma akashiwo; Raphidophyt; Skeletonema costatum@NIES-324@NIES324@NIES-10@NIES10
2278@MacKenzie, L. A., Smith, K. F., Rhodes, L. L., Brown, A., Langi, V., Edgar, M., Lovell, G., Preece, M.@Mortalities of sea-cage salmon (Oncorhynchus tshawytscha) due to a bloom of Pseudochattonella verruculosa (Dictyochophyceae) in Queen Charlotte Sound, New Zealand.@Harmful Algae,@11,@45-53.@2011@@Pseudochattonella verruculosa; Dictyochophyceae; salmon kill; Queen Charlotte Sound; New Zealand@NIES-1@NIES1@NIES-603@NIES603
2279@Yamasaki, Y., Shikata, T., Nukata, A., Ichiki, S., Nagasoe, S., Matsubara, T., Shimasaki, Y., Nakao, M., Yamaguchi, K., Oshima, Y., Oda, T., Ito, M., Jenkinson, I. R., Asakawa, M., Honjo, T.@Extracellular polysaccharide-protein complexes of a harmful alga mediate the allelopathic control it exerts within the phytoplankton community.@ISME J.,@3,@808-817.@2009@@allelopathy; growth inhibition; growth stimulation; harmful algal blooms (HABs); Heterosigma akashiwo; Skeletonema costatum@NIES-324@NIES324@NIES-10@NIES10
2280@Harke, M. J., Berry, D. L., Ammerman, J. W., Gobler, C. J.@Molecular response of the bloom-forming cyanobacterium, Microcystis aeruginosa, to phosphorus Limitation.@Microb. Ecol.,@63,@188-198.@2012@@@NIES-843@NIES843
2281@Shen, M., Xu, JL., Tsang, TY., Au, D. W. T.@Toxicity comparison between Chattonella marina and Karenia brevis using marine medaka (Oryzias melastigma): evidence against the suspected ichthyotoxins of Chattonella marina.@Chemosphere,@80,@585-591.@2010@@Harmful algal blooms (HABs); Chattonella marina; Karenia brevis; Marine medaka; Brevetoxins; Free fatty acids@NIES-3@NIES3
2282@Yamasaki, Y., Nagasoe, S., Tameishi, M., Shikata, T., Zou, Y., Jiang, Z., Matsubara, T., Shimasaki, Y., Yamaguchi, K., Oshima, Y., Honjo, T.@The role of interactions between Prorocentrum minimum and Heterosigma akashiwo in bloom formation.@Hydrobiologia,@641,@33-44.@2010@@Allelopathy; growth and interaction; Heterosigma akashiwo; Prorocentrum minimum; Reactive oxygen species; Skeletonema costatum@NIES-324@NIES324@NIES-1@NIES1@NIES-10@NIES10
2283@Steinbrenner, J. & Linden, H.@Regulation of two carotenoid biosynthesis genes coding for phytoene synthase and carotenoid hydroxylase during stress-induced astaxanthin formation in the green alga Haematococcus pluvialis.@Plant Physiol.,@125,@810-817.@2001@@@NIES-144@NIES144
2284@Matsumoto, H., Takechi, K., Sato, H., Takio, S., Takano, H.@Treatment with antibiotics that interfere with peptidoglycan biosynthesis inhibits chloroplast division in the desmid Closterium.@PLoS One, @7,@e40734 (article ID).@2012@@@NIES-67@NIES67
2285@Hasegawa, M., Nishizawa, A., Tsuji, K., Kimura, S., Harada, K.@Volatile organic compounds derived from 2-keto-acid decarboxylase in Microcystis aeruginosa.@Microbes Environ.,@27,@525-528.@2012@@cyanobacteria; volatile organic compounds; 3-methyl-1-butanol; 2-keto-acid decarboxylase; Microcystis@NIES-843@NIES843
2286@Cho, Y., Ozeki, R., Yotsu-Yamashita, M., Oshima, Y.@Single-cell analysis of paralytic shellfish toxins in Alexandrium tamarense by HPLC with post-column fluorescent derivatization.@Harmful Algae,@25,@47-53.@2013@@Single-cell analysis; Alexandrium tamarense; Paralytic shellfish toxins@NIES-678@NIES678
2287@Park, B. S., Baek, S. H., Ki, J.-S., Cattolico, R. A., Han, M.-S.@Assessment of EvaGreen-based quantitative real-time PCR assay for enumeration of the microalgae Heterosigma and Chattonella (Raphidophyceae).@J. Appl. Phycol., @24,@1555-1567.@2012@@Raphidophyceae; Quantitative real-time PCR; EvaGreen; Field application@NIES-293@NIES293
2288@Kang, Y.-H., Park, C.-S., Han, M.-S.@Pseudomonas aeruginosa UCBPP-PA14 a useful bacterium capable of lysing Microcystis aeruginosa cells and degrading microcystins.@J. Appl. Phycol., @24,@1517-1525.@2012@@Microcystis aeruginosa; Microcystins; Algicidal bacteria; Pseudomonas aeruginosa@NIES-44@NIES44@NIES-298@NIES298@NIES-94@NIES94
2289@Dittami, S. M., Riisberg, I., Edvardsen, B.@Molecular probes for the detection and identification of ichthyotoxic marine microalgae of the genus Pseudochattonella (Dictyochophyceae, Ochrophyta).@Environ. Sci. Pollut. Res.,@20,@6824-6837.@2013@@Harmful algae; Dot blot hybridizations; PCR assays; DNA microarrays; Quantitative real-time PCR@NIES-670@NIES670
2290@Hayashi, S., Jang, J. E., Itoh, K., Suyama, K., Yamamoto, H.@Construction of river model biofilm for assessing pesticide effects.@Arch. Environ. Contam. Toxicol.,@60,@44-56.@2011@@@NIES-803@NIES803@NIES-71@NIES71
2291@Shirokawa, Y., Karino, K., Mayama, S.@Developmental plasticity and genotype–environment interactions influence valve morphology in the Cyclotella meneghiniana species complex (Bacillariophyceae).@Eur. J. Phycol.,@47,@245-253.@2012@@Cyclotella meneghiniana; developmental plasticity; diatoms; fultoportulae; genotype–environment interaction; salinity; strutted processes@NIES-2363@NIES2363@NIES-2364@NIES2364@NIES-2365@NIES2365
2292@Oyama, Y., Matsushita, B., Fukushima, T., Chen, J., Nagai, T., Imai, A.@Testing the spectral decomposition algorithm (SDA) for different phytoplankton species by a simulation based on tank experiments.@Int. J. Remote Sens.,@31,@1605-1623.@2010@@@NIES-803@NIES803@NIES-75@NIES75@NIES-204@NIES204@NIES-44@NIES44
2293@Nagao, M. & Uemura, M.@Sucrose phosphate phosphatase in the green alga Klebsormidium flaccidum (Streptophyta) lacks an extensive C-terminal domain and differs from that of land plants.@Planta,@235,@851-861.@2012@@@NIES-2408@NIES2408
2294@Theriot, E. C., Ashworth, M., Ruck, E., Nakov, T., Jansen, R. K.@A preliminary multigene phylogeny of the diatoms (Bacillariophyta): challenges for future research.@Pl. Ecol. Evol.,@143,@278-296.@2010@@Diatoms; phylogeny; rbcL; psbC; SSU; stratigraphy@NIES-461@NIES461
2295@Ichinomiya, M., Nakamachi, M., Shimizu, Y., Kuwata, A.@Growth characteristics and vertical distribution of Triparma laevis (Parmales) during summer in the Oyashio region, western North Pacific.@Aquat. Microb. Ecol.,@68,@107-116.@2013@@Triparma laevis; Parmales; Vertical distribution; Growth characteristics; Oyashio region@NIES-2565@NIES2565
2296@Ozaki, K., Ito, E., Tanabe, S., Natsume, K., Tsuji, K., Harada, K.@Electron microscopic study on lysis of a cyanobacterium Microcystis.@J. Health Sci.,@55,@578-585.@2009@@cyanobacteria; scanning electron microscope; transmission electron microscope; morphological change; b-cyclocitral; L-lysine@NIES-102@NIES102@NIES-298@NIES298
2297@Mizuno, Y., Sato, A., Watanabe, K., Hirata, A., Takeshita, T., Ota, S., Sato, N., Zachleder, V., Tsuzuki, M., Kawano, S.@Sequential accumulation of starch and lipid induced by sulfur deficiency in Chlorella and Parachlorella species.@Bioresour. Technol.,@129,@150-155.@2013@@Sulfur deficiency; Chlorella spp.; Parachlorella kessleri; Starch; Lipids@NIES-2169@NIES2169@NIES-2173@NIES2173
2298@Asada, C., Doi, K., Sasaki, C., Nakamura, Y.@Efficient extraction of starch from microalgae using ultrasonic homogenizer and its conversion into ethanol by simultaneous saccharification and fermentation.@Natural Resources,@3,@175-179@2012@@Bioethanol; Microalgae; Ultrasonic Treatment; Homoginizer; Starch@NIES-437@NIES437
2299@Smith, D. R., Burki, F., Yamada, T., Grimwood, J., Grigoriev, I. V., Van Etten, J. L., Keeling, P. J.@The GC-rich mitochondrial and plastid genomes of the green alga Coccomyxa give insight into the evolution of organelle DNA nucleotide landscape.@PLoS One, @6,@e23624 (article ID).@2011@@@NIES-2166@NIES2166
2300@Marin, B.@Nested in the Chlorellales or independent class? Phylogeny and classification of the Pedinophyceae (Viridiplantae) revealed by molecular phylogenetic analyses of complete nuclear and plastid-encoded rRNA operons.@Protist, @163,@778-805.@2012@@Marsupiomonadales; Marsupiomonas; Pedinomonas; Pedinophyceae; Resultor; Resultomonas@NIES-252@NIES252@NIES-483@NIES483
2301@Tsuruta, K., Yoshida, Y., Kusumoto, N., Sekine, N., Ashitani, T., Takahashi, K.@Inhibition activity of essential oils obtained from Japanese trees against Skeletonema costatum.@J. Wood Sci.,@57,@520-525.@2011@@Essential oil; Inhibition activity; Red tide plankton; · Skeletonema costatum; Woody waste@NIES-16@NIES16
2302@Hodoki, Y., Ohbayashi, K., Kobayashi, Y., Okuda, N., Nakano, S.-I.@Temporal variation in cyanobacteria species composition and photosynthetic activity in experimentally induced blooms. @J. Plankton Res.,@33,@1410-1416.@2011@@cyanobacterial bloom; DCMU [3'-(3,4-dichlorophenyl)-1',1'-dimethyl urea]; maximum quantum yieldMicrocystis aeruginosa@NIES-843@NIES843
2303@Sato, M., Mogi, Y., Nishikawa, T., Miyamura, S., Nagumo, T., Kawano, S.@The dynamic surface of dividing cyanelles and ultrastructure of the region directly below the surface in Cyanophora paradoxa.@Planta,@229,@781-791.@2009@@Chloroplast division; Cyanelle; Field emission (FE)-SEM; Glaucocystophyta; Peptidoglycan; FtsZ@NIES-547@NIES547
2304@Aikawa, S., Izumi, Y., Matsuda, F., Hasunuma, T., Chang, J.-S., Kondo, A.@Synergistic enhancement of glycogen production in Arthrospira platensis by optimization of light intensity and nitrate supply.@Bioresour. Technol.,@108,@211-215.@2012@@Arthrospira platensis; Glycogen; Cyanobacteria; Light intensity; Nitrogen starvation@NIES-39@NIES39
2305@Kamikawa, R., Sanchez-Perez, G. F., Sako, Y., Roger, A. J., Inagaki, Y.@Expanded phylogenies of canonical and non-canonical types of methionine adenosyltransferase reveal a complex history of these gene families in eukaryotes.@Mol. Phylogenet. Evol.,@53,@565-570.@2009@@Methionine adenosyltransferase; Lateral gene transfer; Diaoms; Aureococcus; Haptophytes; Cryptomonads@NIES-350@NIES350@NIES-586@NIES586@NIES-534@NIES534@NIES-1045@NIES1045@NIES-17@NIES17@NIES-1349@NIES1349@NIES-417@NIES417
2306@Nagai, T., Horio, T., Yokoyama, A., Kamiya, T., Takano, H., Makino, T.@Ecological risk assessment of on-site soil washing with iron(III) chloride in cadmium-contaminated paddy field.@Ecotox. Environ. Safe.,@80,@84-90.@2012@@Risk assessment; Soil washing; Bioassay; Species sensitivity distribution@NIES-35@NIES35
2307@Guidi-Rontani, C., Maheswari, U., Jabbari, K., Bowler, C.@Comparative ecophysiology and genomics of the toxic unicellular alga Fibrocapsa japonica.@New Phytol.,@185,@446-458.@2010@@expressed sequence tags (ESTs); Fibrocapsa japonica; harmful algal blooms; heterokont; phylogeny; raphidophyte; stramenopile; toxicity@NIES-462@NIES462@NIES-560@NIES560@NIES-605@NIES605@NIES-1303@NIES1303
2308@Worden, A. Z. et al.@Green evolution and dynamic adaptations revealed by genomes of the Marine Picoeukaryotes Micromonas.@Science,@324,@268-272.@2009@@@NIES-2672@NIES2672
2309@Nybom, S. M. K., Salminen, S. J., Meriluoto, J. A. O.@Specific strains of probiotic bacteria are efficient in removal of several different cyanobacterial toxins from solution.@Toxicon,@52,@214-220.@2008@@Cyanotoxin; Microcystin; Cylindrospermopsin; Probiotic bacteria; Bifidobacterium; Lactobacillus; Removal@NIES-107@NIES107
2310@Spoof, L., Neffling, M.-R., Meriluoto, J.@Fast separation of microcystins and nodularins on narrow-bore reversed-phase columns coupled to a conventional HPLC system.@Toxicon,@55,@954-964.@2010@@Microcystins; Nodularins; Fast high-performance liquid; chromatography@NIES-107@NIES107
2311@Jung, J.-M., Lee, Y.-J., Park, H.-K., Jung, E.-Y., Joo, G.-J.@The analysis of cyanobacterial neurotoxins by high-performance liquid chromatography-mass spectrometry.@Algae,@18,@233-238.@2003@@anatoxin-a; Aphanizomenon flos-aquae; cyanobacterial toxins; LC-MS; saxitoxin@NIES-81@NIES81
2312@Huang, Y.-T. & Su, C.-P.@High lipid content and productivity of microalgae cultivating under elevated carbon dioxide.@Int. J. Environ. Sci. Technol.,@11, @703-710.@2014@@Biodiesel; Chlorella; Global warming; Light intensity@NIES-2173@NIES2173
2313@Okuyama, H., Kogame, K., Takeda, S.@Phylogenetic significance of the limited distribution of octadecapentaenoic acid in Prymnesiophytes and photocynthetic dinoflagellates.@Proc. NIPR Symp. Polar Biol.,@6,@21-26.@1993@@@NIES-353@NIES353
2314@Hosoi-Tanabe, S. & Sako, Y.@Species-specific detection and quantification of toxic marine Dinoflagellates Alexandrium tamarense and A. catenella by reai-time PCR assay.@Mar. Biotechnol.,@7,@506-514.@2005@@toxic dinoflagellate; — Alexandrium; paralytic shellfish poisoning (PSP); real-time PCR; species-specific identification; quantification@NIES-12@NIES12@NIES-331@NIES331@NIES-293@NIES293@NIES-1@NIES1@NIES-559@NIES559@NIES-603@NIES603@NIES-670@NIES670@NIES-7@NIES7
2315@Onji, M., Nakano, S.-I., Suzuki, S.@Virus-like particles suppress growth of the red-tide-forming marine dinoflagellate Gymnodinium mikimotoi.@Mar. Biotechnol.,@5,@435-442.@2003@@Gymnodinium mikimotoi; virus; red tide@NIES-3@NIES3@NIES-7@NIES7
2316@Saldarriaga, J. F., McEwan, M. L., Fast, N. M., Taylor, F. J. R., Keeling, P. J.@Multiple protein phylogenies show that Oxyrrhis marina and Perkinsus marinus are early branches of the dinoflagellate lineage.@Int. J. Syst. Evol. Microbiol.,@53,@355-365.@2003@@@NIES-304@NIES304
2317@Logares, R., Shalchian-Tabrizi, K., Boltovskoy, A., Rengefors, K.@Extensive dinoflagellate phylogenies indicate infrequent marine–freshwater transitions.@Mol. Phylogenet. Evol.,@45,@887-903.@2007@@Dinoflagellates; Freshwater; Colonization; Phylogeny@NIES-304@NIES304@NIES-471@NIES471@NIES-495@NIES495@NIES-463@NIES463@NIES-501@NIES501
2318@Sako, Y., Hosoi-Tanabe, S., Uchida, A.@Fluorescence in situ hybridization using rRNA-targeted probes for simple and rapid identification of the toxic dinoflagelates Alexandrium tamarense and Alexandrium catenella.@J. Phycol.,@40,@598-605.@2004@@Alexandrium; FISH method; LSU rRNA; molecular identification; paralytic shellfish poisoning (PSP); probe; toxic dinoflagellate@NIES-12@NIES12@NIES-331@NIES331@NIES-1@NIES1@NIES-7@NIES7
2319@Nakajima, N., Teramoto, T., Kasai, F., Sano, T., Tamaoki, M., Aono, M., Kubo, A., Kamada, H., Azumi, Y., Saji, H.@Glycosylation of bisphenol A by freshwater microalgae.@Chemosphere,@69,@934-941.@2007@@Metabolite; Glucoside; Galactoside; Endocrine disruptors@NIES-35@NIES35@NIES-245@NIES245@NIES-763@NIES763@NIES-468@NIES468@NIES-96@NIES96@NIES-151@NIES151@NIES-424@NIES424@NIES-94@NIES94
2320@Berge, T., Daugbjerg, N., Hansen, P. J.@Isolation and cultivation of microalgae select for low growth rate and tolerance to high pH.@Harmful Algae,@20,@101-110.@2012@@Culture; Growth rates; Harmful algal blooms; Heterocapsa triquetra; Interspecific variation; Laboratory selection; pH; Phytoplankton; Species; Strains@NIES-7@NIES7@NIES-235@NIES235
2321@Okubo, Y., Inoue, T., Yokoto, K.@Estimating bioavailability of soil particulate phosphorus toMicrocystis aeruginosa.@J. Appl. Phycol., @24,@1503-1507.@2012@@Particulate phosphorus; Bioavailable phosphorus; Microcystis aeruginosa; Cyanobacteria; Sequential phosphorus extraction@NIES-44@NIES44
2322@Ando, T., Otsuka, S., Nishiyama, M., Sendo, K., Watanabe, M. M., Matsumoto, S.@Toxic effects of dichloromethane and trichloroethlene on the growth of planktonic green algae, Chlorella vulgaris NIES227, Selenastrum capricornutum NIES35, and Volvulina steinii NIES545.@Microbes Environ.,@18,@43-46.@2003@@algal growth potential (AGP); bioindicator; dichloromethane; organic solvents; trichloroethlene@NIES-227@NIES227@NIES-35@NIES35@NIES-545@NIES545
2323@Takeda, F., Nakano, K., Nishimura, O., Shimada, Y., Fukuro, S., Tanaka, H., Hayashi, N. Inamori, Y.@Allelopathic potential Potamogeton pusillus communitya against Microcystis aeruginosa.@J. Water Environ. Technol.,@9,@21-28.@2011@@allelopathy; Microcystis aeruginosa; Potamogeton pusillus@NIES-87@NIES87
2324@Park, M.-H., Kim, B.-H., Chung, I. M., Hwang, S.-J.@Selective bactericidal potential of rice (Oryza sativa L. var. japonica) full extract on Microcystis strain in comparison with green algae and zooplankton.@Bull. Environ. Contam. Toxicol.,@83,@97-101.@2009@@Rice hull extract; Selective control; Microcystis aeruginosa; Green alga; Zooplankton@NIES-298@NIES298
2325@Shao, J., Peng, L., Luo, S., Yu, G., Gu, J.-D., Lin, S., Li, R.@First report on the allelopathic effect of Tychonema bourrellyi (Cyanobacteria) against Microcystis aeruginosa (Cyanobacteria).@J. Appl. Phycol., @25,@1567-1573.@2013@@Tychonema bourrellyi; Microcystis aeruginosa; Allelopathy; Volatile substances; ß-Ionone; Cyanobacteria@NIES-843@NIES843
2326@Kawahara, K., Sagehashi, M., Fujii, T., Fujita, H., Hu, H.-Y., Sakoda, A.@Potential of a green alga Botryococcus braunii for simultaneous water purification and biofuel production under open-air condition.@J. Water Environ. Technol.,@9,@29-37.@2011@@biofuel production; Botryococcus braunii; Microcystis aeruginosa; water purification@NIES-1090@NIES1090@NIES-87@NIES87@NIES-836@NIES836
2327@Oh, S. J., Kim, D.-I., Sajima, T., Shimasaki, Y., Matsuyama, Y., Oshima, Y., Honjo, T., Yang, H.-S.@Effects of irradiance of various wavelengths from light-emitting diodes on the growth of the harmful dinoflagellate Heterocapsa circularisquama and the diatom Skeletonema costatum.@Fish. Sci.,@74,@137-145.@2008@@Heterocapsa circularisquama; irradiance; light wavelengths; light-emitting diode; Skeletonema costatum@NIES-324@NIES324
2328@Fujise, D., Tsuji, K., Fukushima, N., Kawai, K., Harada, K.@Analytical aspects of cyanobacterial volatile organic compounds for investigation of their production behavior.@J. Chromatogr. A,@1217,@6122-6125.@2010@@Cyanobacteria; Volatile organic compounds; Analysis; b-Cyclocitral; 2-Methyl-1-butanol; 3-Methyl-1-butanol; SPME@NIES-87@NIES87@NIES-298@NIES298
2329@Alamsjah, M. A., Hirao, S., Ishibashi, F., Oda, T., Fujita, Y.@Algicidal activity of polyunsaturated fatty acids derived from Ulva fasciata and U. pertusa (Ulvaceae, Chlorophyta) on phytoplankton.@J. Appl. Phycol., @20,@713-720.@2008@@Algicidal compound; Red tide phytoplankton; Ulva fasciata; Ulva pertusa@NIES-359@NIES359@NIES-462@NIES462@NIES-252@NIES252@NIES-221@NIES221@NIES-1@NIES1@NIES-3@NIES3@NIES-486@NIES486@NIES-254@NIES254@NIES-381@NIES381@NIES-7@NIES7@NIES-251@NIES251
2330@Rokitta, S. D., de Nooijer, L. J., Trimborn, S., de Vargas, C., Rost, B., John, U.@Transcriptome analyses reveal differential gene expression patterns between the life-cycle stages of Emiliania huxleyi (Haptophyta) and reflect specialization to different ecological niches.@J. Phycol., @47,@829-838.@2011@@endocytosis; life-cycle stages; microarray; quantitative RT-PCR; transcriptome profiling@NIES-2697@NIES2697
2331@Laflamme, M., Lee, R. W.@Mitochondrial genome conformation among CW-group Chlorophycean algae.@J. Phycol.,@39,@213-220.@2003@@Chlamydomonas; Chlorophyceae; gel electrophoresis; mitochondrial DNA conformation; phylogeny@NIES-484@NIES484@NIES-296@NIES296
2332@Franklin, D. J., Steinke, M., Young, J., Probert, I., Malin, G.@Dimethylsulphoniopropionate (DMSP), DMSP-lyase activity (DLA) and dimethylsulphide (DMS) in 10 species of coccolothophore.@Mar. Ecol. Prog. Ser.,@410,@13-23.@2010@@Marine sulphur cycle; Calcifying haptophytes; Biogeochemistry; Emiliania; Gephyrocapsa; Calcidiscus; Coccolithophores@NIES-2694@NIES2694@NIES-2696@NIES2696@NIES-2697@NIES2697@NIES-2707@NIES2707
2333@Kang, C.-D., Sim, S.-J.@Direct extraction of astaxanthin from Haematococcus culture using vegetable oils.@Biotechnol. Lett., @30,@441–444.@2008@@Astaxanthin; Direct extraction; Green process; Haematococcus pluvialis; Vegetable oil@NIES-144@NIES144
2334@Kang, C. D., Lee, J. S., Park, T. H., Sim, S. J.@Comparison of heterotrophic and photoautotrophic induction on astaxanthin production by Haematococcus pluvialis.@Appl. Microbiol. Biotechnol.,@68,@237-241.@2005@@@NIES-144@NIES144
2335@Li, R. & Watanabe, M. M.@Fatty acid composition of planktonic species of Anabaena (Cyanobacteria) with coiled trichomes exhibited a significant.@Curr. Microbiol.,@49,@376-380.@2004@@@NIES-77@NIES77@NIES-79@NIES79@NIES-263@NIES263@NIES-73@NIES73@NIES-76@NIES76
2336@Shimonaga, T., Fujiwara, S., Kaneko, M., Izumo, A., Nihei, S., Francisco, P. B., Satoh, A., Fujita, Naoko., Nakamura, Y., Tsuzuki, M.@Variation in Storage α-polyglucans of red algae: amylose and semi-amylopectin types in Porphyridium and goycogen type in Cyanidium.@Mar. Biotechnol.,@9,@192-202.@2007@@Amylose; glycogen; granule-bound starch synthase; red algae; semi-amylopection@NIES-2138@NIES2138@NIES-551@NIES551
2337@Shimonaga, T., Konishi, M., Oyama, Y., Fujiwara, S., Satoh, A., Fujita, N., Colleoni, C., Buléon, A., Putaux, J.-L., Ball, S. G., Yokoyma, A., Hara, Y., Nakamura, Y., Tsuzuki, M.@Variation in Storage α-polyglucans of the Porphyridiales (Rhodophyta).@Plant Cell Physiol.,@49,@103-116.@2008@@Amylose; Floridean starch; Glycogen; Porphyridiales; Rhodophyta; Semi-amylopection@NIES-18@NIES18@NIES-530@NIES530@NIES-551@NIES551@NIES-2138@NIES2138@NIES-2160@NIES2160@NIES-2258@NIES2258@NIES-2280@NIES2280@NIES-144@NIES144@NIES-250@NIES250
2338@Connell, L.@Rapid identification of marine algae (Raphidophyceae) using three-primer peR amplification of nuclear internal transcribed spacer (ITS) regions from fresh and archived material.@Phycologia,@41,@15-21.@2002@@@NIES-15@NIES15@NIES-1@NIES1
2339@Okumura, Y., Koyama, J., Takaku, H., Satoh, H.@Influence of organic solvents on the growth of marine microalgae.@Arch. Environ. Contam. Toxicol.,@41,@123-128.@2001@@@NIES-324@NIES324@NIES-6@NIES6
2340@Imai, I., Hatano, M., Naito, K.@Development of a chemically defined artificial medium for marine red tide-causing raphidophycean flagellates.@Plankton Biol. Ecol.,@95,@95-102.@2004@@Chattonella; Fibrocapsa; artificial media; molybdenum; iodine@NIES-1@NIES1
2341@Kubo, T., Kato, N., Hosoya, K., Kaya, K.@Effective determination method for a cyanobacterial neurotoxin, β-N-methylamino-L-alanine.@Toxicon,@51,@1264-1268.@2008@@Cyanobacteria; Neurotoxin; BMAA; LC–ESI-MS; HILIC; SIM@NIES-88@NIES88
2342@Furusato, E., Asaeda, T., Manatunge, J.@Tolerance for prolonged darkness of three phytoplankton species, Microcystis aeruginosa (Cyanophyceae), Scenedesmus quadricauda (Chlorophyceae), and Melosira ambigua (Bacillariophyceae).@Hydrobiologia,@527,@153-162.@2004@@algal bloom; artificial circulation; community succession; darkness tolerance; phytoplankton@NIES-298@NIES298@NIES-96@NIES96
2343@Metcalf, J. S., Bell, S. G., Codd, G. A.@Production of novel polyclonal antibodies against the cyanobacterial toxin microcystin-LR and their application for the detection and quantification of microcystins and nodularin.@Water Res., @34,@2761-2769.@2000@@cyanobacteria; blue-green algae; microcystin; toxins; antibodies; immunoassays@NIES-595@NIES595@NIES-102@NIES102@NIES-103@NIES103@NIES-104@NIES104@NIES-42@NIES42
2344@Zarenezhad, S., Sano, T., Watanabe, M. M., Kawachi, M.@Evidence of the existence of a toxic form of Cylindrospermopsis raciborskii (Nostocales, Cyanobacteria) in Japan.@Phycol. Res.,@60,@98-104.@2012@@cyanobacteria; Cylindrospermopsis raciborskii; deoxy-cylindrospermopsin; distribution@NIES-992@NIES992@NIES-3583@NIES3583
2345@Kumazaki, S., Akari, M., Hasegawa, M.@Transformation of thylakoid membranes during differentiation from vegetative cell into heterocyst visualized by microscopic spectral imaging.@Plant Physiol.,@161,@1321-1333.@2013@@@NIES-2095@NIES2095
2346@Hasegawa, M., Yoshida, T., Yabuta, M., Terazima, M., Kumazaki, S.@Anti-Stokes fluorescence spectra of chloroplasts in Parachlorella kessleri and maize at room temperature as characterized by near-infrared continuous-wave laser fluorescence microscopy and absorption microscopy.@J. Phys. Chem. B,@115,@4184-4194.@2011@@@NIES-2160@NIES2160
2347@Fujii, M., Sato, Y., Ito, H., Masago, Y., Omura, T.@Monosaccharide composition of the outer membrane lipopolysaccharide and O-chain from the freshwater cyanobacterium Microcystis aeruginosa NIES-87.@J. Appl. Microbiol.,@113,@896-903.@2012@@chemical characterization, lipopolysaccharide, Microcystis aeruginosa, O-chain@NIES-87@NIES87
2348@Takaaraa, T., Sano, D., Konnob, H., Omura, T.@Cellular proteins of Microcystis aeruginosa inhibiting coagulation with polyaluminum chloride.@Water Res., @41,@1653-1658.@2007@@Microcystis aeruginosa; Cyanobacterial proteins; Coagulation; Affinity chromatography; Polyaluminum chloride@NIES-91@NIES91
2349@Takaaraa, T., Sano, D., Masago, Y., Omura, T.@Surface-retained organic matter of Microcystis aeruginosa inhibiting coagulation with polyaluminum chloride in drinking water treatment.@Water Res., @44,@3781-3786.@2010@@Microcystis aeruginosa;Surface-retained organic matter (SOM); Coagulation inhibition; Polyaluminum chloride (PACl); Lipopolysaccharide (LPS)@NIES-91@NIES91
2350@Sano, D., Ishifuji, S., Sato, Y., Imae, Y., Takaara, T., Masago, Y., Omura, T.@Identification and characterization of coagulation inhibitor proteins derived from cyanobacterium Microcystis aeruginosa.@Chemosphere,@82,@1096-1102.@2011@@Aluminum-immobilized affinity; chromatography; Coagulation inhibition; Cyanobacterial protein; Microcystis aeruginosa; Phage display; Polyaluminum chloride@NIES-91@NIES91
2351@Tanifuji, G., Erata, M., Ishida, K-I., Onodera, N., Hara, Y.@Diversity of secondary endosymbiont-derived actin-coding genes in cryptomonads and their evolutionary implications.@J. Plant Res.,@119,@205-215.@2006@@Cryptomonads; Nucleomorph; Symbiotic gene reorganization; Symbiont actin gene@NIES-701@NIES701@NIES-765@NIES765@NIES-702@NIES702@NIES-712@NIES712@NIES-697@NIES697@NIES-700@NIES700@NIES-708@NIES708
2352@Tanifuji, G., Onodera, N., Hara, Y.@Nucleomorph genome diversity and its phylogenetic implications in cryptomonad algae.@Phycol. Res.,@58,@230-237.@2010@@cryptomonads; endosymbiosis; evolution; genome reduction; nucleomorph; phylogeny@NIES-765@NIES765@NIES-701@NIES701@NIES-277@NIES277@NIES-280@NIES280@NIES-715@NIES715@NIES-699@NIES699@NIES-702@NIES702@NIES-712@NIES712@NIES-697@NIES697@NIES-704@NIES704@NIES-708@NIES708@NIES-274@NIES274
2353@Hoshina, R. & Fujiwara, Y.@Molecular characterization of Chlorella cultures of the National Institute for Environmental Studies culture collection with description of Micractinium inermum sp. nov., Didymogenes sphaerica sp. nov., Didymogenes soliella sp. nov., (Chlorellaceae, Trebouxiophyceae).@Phycol. Res.,@61,@124-132.@2013@@Chlorella; Didymogenes; group 1 intron; internal transcribed spacer 2; Micractinium; species concept@NIES-2167@NIES2167@NIES-2171@NIES2171@NIES-2173@NIES2173@NIES-2330@NIES2330
2354@Shiraishi, H., Tabuse, Y.@The AplI restriction-modification system in an edible cyanobacterium, Arthrospira (Spirulina) platensis NIES-39, recognizes the nucleotid sequence 5'-CTGCAG-3'.@Biosci. Biotechnol. Biochem.,@77,@782-788.@2013@@Arthrospira platensis; Spirulina; restriction enzyme; DNA methyltransferase; edible cyanobacteria@NIES-39@NIES39
2355@Hoshina, R., Kamako, S.-I., Imamura, N.@Phylogenetic position of endosymbiotic green algae in Paramecium bursaria Ehrenberg from Japan.@Plant Biol.,@6,@447-453.@2004@@18S rDNA; Chlorella; endosymbiont; ITS; Paramecium bursaria; phylogeny@NIES-2540@NIES2540@NIES-2541@NIES2541
2356@Hoshina, R., Kato, Y., Kamako, S., Imamura, N.@Genetic evidence of "American" and "European" type symbiotic algae of Paramecium bursaria Ehrenberg.@Plant Biol.,@7,@526-532.@2005@@18S rDNA; "American"; "European"; Chlorella; ITS; Paramecium bursaria; Phylogeny@NIES-2540@NIES2540@NIES-2541@NIES2541
2357@Kato, Y., Ueno, S., Imamura, N.@Studies on the nitrogen utilization of endosymbiotic algae isolated from Japanese Paramecium bursaria.@Plant Sci., @170,@481-486.@2006@@Endosymbiont; Paramecium bursaria; Nitrogen utilization; Chlorella@NIES-227@NIES227@NIES-2540@NIES2540@NIES-2541@NIES2541
2358@Skjelbred, B., Edvardsen, B., Andersen, T.@Environmental optima for seven strains of Pseudochattonella (Dictyochophyceae, Heterokonta).@J. Phycol., @49,@54-60.@2012@@compensation irradiance; growth rates; light; loss rates; Pseudochattonella; salinity; saturating irradiance; temperature@NIES-670@NIES670
2359@Giovagnetti, V., Cataldo, M. L., Conversano, F., Brunet, C.@Functional relation between growth, photosynthetic rate and regulation in the coastal picoeukaryote Phaeomonas sp. RCC 503 (Pinguiophyceae, Stramenopiles).@J. Plankton Res.,@32,@1501-1511.@2010@@photoacclimation; picoeukaryote; xanthophyll cycle@NIES-2693@NIES2693
2360@Hautala, H., Lamminmäki, U., Spoof, L., Nybom, S., Meriluoto, J., Vehniäinen, M.@Quantitative PCR detection and improved sample preparation of microcystin-producing Anabaena, Microcystis and Planktothrix.@Ecotox. Environ. Safe.,@87,@49-56.@2013@@Microcystin; Cyanobacteria; Quantitative PCR; mcyB; Sample prepararion@NIES-107@NIES107
2361@Yang, Y., Maruyama S., Sekimoto, H., Sakayama, H., Nozaki, H.@An extended phylogenetic analysis reveals ancient origin of “non-green" phosphoribulokinase genes from two lineages of "green” secondary photosynthetic eukaryotes: Euglenophyta and Chlorarachniophyta.@BMC Research Notes, @4,@330 (article ID).@2011@@@NIES-381@NIES381
2362@Hirabaru, C., Izumo,A., Fujiwara, S., Tadokoro, Y., Shimonaga, T., Konishi, M., Yoshida, M., Fujita, N., Nakamura, Y., Yoshida, M., Kuroiwa, T., Tsuzuki, M.@The primitive rhodophyte Cyanidioschyzon merolae contains a semiamylopectin-type, but not an amylose-type, α-glucan.@Plant Cell Physiol., @51,@682-693.@2010@@Amylose; Cyanidioschyzon; Floridean starch; Glycogen; Starch synthase; Semiamylopectin@NIES-551@NIES551
2363@Imase, M., Ohko, Y., Takeuchi, M., Hanada, S.@Estimating the viability of Chlorella exposed to oxidative stresses based around photocatalysis.@Int. Biodeterior. Biodegrad.,@78,@1-6.@2013@@Autofluorescence; Cell staining; Chlorella sorokiniana; Oxidative stress: TiO₂ photocatalysis; Viability assay@NIES-2169@NIES2169
2364@Iwamoto, K. & Shiraiwa, Y.@Characterization of intracellular iodine accumulation by iodine-tolerant microalgae.@Procedia Environ. Sco., @15,@34-42.@2012@@ growth stimulation; growth inhibition; haptophyte; iodine; iodine accumulation@NIES-377@NIES377@NIES-838@NIES838@NIES-837@NIES837
2365@Oishi, S. & Watanabe, M. F. @Acute toxicity of Microcystis aeruginosa and its cardiovascular effects.@Environ. Res., @40,@518-524.@1986@@@NIES-3349@NIES3349
2366@Takaichi, S.@Carotenoids in algae: distributions, biosyntheses and functions.@Mar. Drugs,@9,@1101-1118.@2011@@algal phylogeny; biosynthesis of carotenoids; distribution of carotenoids; function of carotenoids; pigment-protein complex@NIES-144@NIES144@NIES-1332@NIES1332@NIES-3377@NIES3377@NIES-4696@NIES4696
2367@Yamasaki, Y., Ohmichi, Y., Shikata, T., Hirose, M., Shimasaki, Y., Oshima, Y., Honjo, T.@Species-specific allelopathic effects of the diatom Skeletonema costatum.@Thalassas,@27,@21-32.@2010@@Allelopathy; growth inhibition; growth promotion; Heterosigma akashiwo; low molecular weight allelochemicals; Skeletonema costatum; species-specific effect@NIES-324@NIES324@NIES-10@NIES10
2368@Matsuzaki, R., Hara, Y., Nozaki, H.@A taxonomic revision of Chloromonas reticulata (Volvocales, Chlorophyceae), the type species of the genus Chloromonas, based on multigene phylogeny and comparative light and electron microscopy.@Phycologia,@51,@74-85.@2012@@Chloromonadinia; Chloromonas; Chloromonas chlorococcoides comb. nov.; Chloromonas lineage; Chloromonas typhlos comb. nov.; Molecular phylogeny; Morphology; Taxonomy; Ultrastructure; Volvocales@NIES-447@NIES447
2369@Matsuzaki, R., Nakada, T., Hara, Y., Nozaki, H.@Description of Chloromonas kasaiae sp. nov. (Volvocales, Chlorophyceae), based on comparative electron microscopy and molecular data.@Phycologia,@52,@239-245.@2013@@Chloromonadinia; Chloromonas kasaiae; Molecular phylogeny; Morphology; Taxonomy; Ultrastructure; Volvocales@NIES-2862@NIES2862
2370@Nakamura, Y., Takahashi, J-I., Sakurai, A., Inaba, Y., Suzuki, E., Nihei, S., Fujiwara, S., Tsuzuki, M., Miyashita, H., Ikemoto, H., Kawachi, M., Sekiguchi, H., Kurano, N.@Some Cyanobacteria synthesize semi-amylopectin type α-polyglucans instead of glycogen.@Plant Cell Physiol.,@46,@539-545.@2005@@Amylopectin; Cyanobacteria; Glycogen; α-Polyglucan; Starch@NIES-592@NIES592@NIES-36@NIES36
2371@Arima, H., Horiguchi, N., Takaichi, S., Kofuji, R., Ishida, K-I., Wada, K., Sakamoto, T.@Molecular genetic and chemotaxonomic characterization of the terrestrial cyanobacterium Nostoc commune and its neighboring species.@FEMS Microbiol. Ecol., @79,@34-45.@2012@@Anhydrobiosis; carotenoid; ferredoxin-NADP; oxidoreductase; nitrate/nitrite transporter; random amplified polymorphic DNA; water stress protein@NIES-2538@NIES2538@NIES-2539@NIES2539@NIES-2107@NIES2107@NIES-24@NIES24@NIES-2108@NIES2108@NIES-28@NIES28
2372@Sakamoto, T., Kumihashi, K., Kunita, S., Masaura, T., Inoue-Sakamoto, K., Yamaguchi, M.@The extracellular-matrix-retaining cyanobacterium Nostoc verrucosum accumulates trehalose, but is sensitive to desiccation.@FEMS Microbiol. Ecol., @77,@385-394.@2011@@compatible solute; stress tolerance; extracellular; polysaccharide; water stress protein (WspA)@NIES-2539@NIES2539@NIES-2538@NIES2538
2373@Baker, J. A., Entsch, B., McKay, D. B.@The cyanobiont in an Azolla fern is neither Anabaena nor Nostoc.@FEMS Mircobiol. Lett.,@229,@43-47.@2003@@Azolla fern; Cyanobacterial symbiont; Phylogenetic relationship@NIES-40@NIES40@NIES-80@NIES80
2374@Kim, C.-J., Jung, Y.-H., Ahn, C.-Y., Lee, Y.-K., Oh, H.-M.@Adsorption of turbid materials by the cyanobacterium Phormidium parchydematicum.@J. Appl. Phycol., @22,@181-186.@2010@@Chlorella vulgaris; Clay; Cyanobacteria; Phormidium parchydematicum; Turbid material@NIES-39@NIES39
2375@Ohko, Y., Nagao, Y., Okano, K., Sugiura, N., Fukuda, A., Yang, Y., Negishi, N., Takeuchi, M., Hanada, S.@Prevention of Phormidium tenue biofilm formation by TiO₂ photocatalysis.@Microbes Environ.,@24,@241-245.@2009@@Phormidium tenue; cyanobacteria; TiO₂ photocatalyst; anti-biofilm; UV light@NIES-512@NIES512
2376@Ioki, M., Ohkoshi, M., Nakajima, N., Nakahira-Yanaka, Y., Watanabe, M. M.@Isolation of herbicide-resistant mutants of Botryococcus braunii.@Bioresour. Technol.,@109,@300-303.@2012@@Botryococcus braunii; Paraquat; Methyl viologen; Basta; Glufosinate@NIES-230@NIES230@NIES-35@NIES35@NIES-2235@NIES2235@NIES-119@NIES119@NIES-227@NIES227
2377@Honda, R., Boonnorat, J., Chiemchaisri, C., Chiemchaisri, w., Yamamoto, K.@Carbon dioxide capture and nutrients removal utilizing treated sewage by concentrated microalgae cultivation in a membrane photobioreactor.@Bioresour. Technol.,@125,@59-64.@2012@@Carbon dioxide capture; Nutrients removal; Membrane photobioreactor; Microalgae; Botryococcus braunii@NIES-2199@NIES2199
2378@Kim, B.-H., Ramanan, R., Cho, D.-H., Choi, G.-G., La, H.-J., Ahn, C.-Y., Oh, H.-M., Kim, H.-S.@Simple, rapid and cost-effective method for high quality nucleic acids extraction from different strains of Botryococcus braunii.@PLoS One, @7,@e37770 (article ID).@2012@@@NIES-836@NIES836
2379@Li, Y., Qin, J. G.@Comparison of growth and lipid content in three Botryococcus braunii strains.@J. Appl. Phycol., @17,@551-556.@2005@@temperature; irradiance; salinity; Botryococcus braunii; hydrocarbon@NIES-836@NIES836
2380@Ranga Rao, A., Ravishankar, G. A., Sarada, R.@Cultivation of green alga Botryococcus braunii in raceway, circular ponds under outdoor conditions and its growth, hydrocarbon production.@Bioresour. Technol.,@123,@528-533.@2012@@Microalgae; Botryococcus braunii; Outdoor cultivation; Hydrocarbon; Fatty acids@NIES-836@NIES836
2381@Nagai, T., Taya, K., Annoh, H., Ishihara, S.@Application of a fluorometric microplate algal toxicity assay for riverine periphytic algal species.@Ecotox. Environ. Safe.,@94,@37-44.@2013@@Attached algae; In-vivo fluorescence; Pesticides; Species sensitivity distribution@NIES-797@NIES797@NIES-512@NIES512@NIES-35@NIES35@NIES-73@NIES73@NIES-414@NIES414@NIES-487@NIES487@NIES-71@NIES71
2382@Shirokawa, Y., Shimada, M.@Sex allocation pattern of the diatom Cyclotella meneghiniana.@Proc. R. Soc. Lond. Ser. B-Biol. Sci.,@280,@20130503 (article ID).@2013@@sex allocation; spilit sex ratio; size advantage model; fertility insurance; unicellular organism; microfluidic system@NIES-2364@NIES2364
2383@Ishihara, S., Horio, T., Kobara, Y., Yokoyama, A., Mayama, S.@Development of a growth inhibition test method using fresh water attached diatoms.@Jpn. J. Environ. Toxicol.,@9,@101-113 (in Japanese with English summary).@2006@@attached diatom; growth inhibition test; herbicide; ecological risk assessment@NIES-2718@NIES2718@NIES-2719@NIES2719@NIES-2720@NIES2720@NIES-2721@NIES2721@NIES-2725@NIES2725@NIES-2726@NIES2726@NIES-2727@NIES2727@NIES-2728@NIES2728@NIES-2730@NIES2730@NIES-2731@NIES2731@NIES-2732@NIES2732@NIES-2733@NIES2733@NIES-2717@NIES2717@NIES-2722@NIES2722@NIES-2729@NIES2729@NIES-71@NIES71@NIES-2724@NIES2724
2384@Saito, K., Matsumoto, M., Sekine, T., Murakoshi, I.@Inhibitory substances from Myriophyllum brasiliense of growth of blue-green algae.@J. Nat. Prod., @52,@1221-1226.@1989@@@NIES-44@NIES44@NIES-73@NIES73
2385@Shikata, T., Sakurada, K., Jomoto, Y., Oyama, N., Onji, M., Yoshida, M., Ohwada, K.@Growth dynamics of Chattonella antiqua in relation to nutrients in the Yatsushiro Sea.@Nippon Suisan Gakkaishi,@77,@40-52 (in Japanese with English summary).@2011@@Chattonella; red tide; nutrient; nitrogen; iron; bioassay; Yatsushiro Sea; phosphate@NIES-1@NIES1
2386@Ohara, S., Uehara, T., Kimura, K. Yoshida, T., Fujiwara, S., Mizuguchi, H., Fuse, Y., Yamada, E.@Behavior of humic substances and algal dissolved organic matter as precursors of trihalomethane in Lake Biwa.@Bunseki Kagaku,@58,@231-240 (in Japanese with English summary).@2009@@dissolved organic matter (DOM); humic substances; algal DOM; trihalomethane precursors; Lake Biwa@NIES-109@NIES109@NIES-275@NIES275@NIES-665@NIES665
2387@Shoji, R., Nkayama, H., Sakai, Y., Mohri, S., Yamada, M.@Evaluation of the ecotoxicity of solid wastes using rapid leaching test and bioassays.@J. Environ. Sci. Health Part A-Toxic/Hazard. Subst. Environ. Eng. ,@43,@1048-1053.@2008@@Heavy metals; ecotoxicity; organic compounds; rapid leaching test; bioassays@NIES-35@NIES35
2388@Murakami, M., Sato, N., Anegawa, A., Nakada, N., Harada, A., Komatsu, T., Takada, H., Tanaka, H., Ono, Y., Furumai, H.@Multiple evaluations of the removal of pollutants in road runoff by soil infiltration.@Water Res., @42,@2745-2755.@2008@@Groundwater contamination; Infiltration facility; Road dust; Urban runoff; Soil infiltration column test; Water-soluble micropollutants@NIES-35@NIES35
2389@Yamashita, N., Tanaka, H., Miyajima, K., Suzuki, Y.@Evaluation of effect of seaage effluent on river water quality using AGP and algal growth inhibition tests.@J. JSCE,@62,@191-200 (in Japanese with English summary).@2006@@AGP test; algal growth inhibition test; sewage effluent; Tama River@NIES-35@NIES35
2390@Marin, B., Melkonian, M.@Molecular phylogeny and classification of the Mamiellophyceae class. nov. (Chlorophyta) based on sequence comparisons of the nuclear- and plastid-encoded rRNA operons.@Protist,@161,@304-336.@2010@@prasinophytes; SSU rDNA; LSU rDNA; ITS2; systematics; freshwater; Monomastigales; Dolichomastigales; Mamiellales; Monomastigaceae; Dolichomastigaceae; Crustomastigaceae; Bathycoccaceae@NIES-252@NIES252@NIES-360@NIES360@NIES-483@NIES483@NIES-255@NIES255
2391@Nakashima, T., Miyazaki, Y., Matsuyama, Y., Muraoka, W., Yamaguchi, K., Oda, T.@Producing mechanism of an algicidal compound against red tide phytoplankton in a marine bacterium γ-proteobacterium.@Appl. Microbiol. Biotechnol.,@73,@684-690.@2006@@Algal activity; Harmful algal bloom; Prodigiosin; γ-proteobacterium; Homoserine lactone@NIES-6@NIES6
2392@Jung, S. W., Kim, B.-H., Katano, T., Kong, D.-S., Han, M.-S.@Pseudomonas flurescens HYK0210-SK09 offers species-specific biological control of winter algal blooms caused by freshwater diatom Stephanodiscus hantzschii.@J. Appl. Microbiol.,@105,@186-195.@2008@@algicidal bacterium; algicidal mechanism; biological control; indoor mesocosm; Pseudomonas fluorescens; Stephanodiscus hantzschii@NIES-44@NIES44@NIES-19@NIES19@NIES-298@NIES298
2393@Hatakeyama, S.@Assessment of overall herbicide effects on river ecosystems through periphyton and aquatic plants.@Jpn. J. Environ. Toxicol.,@9,@51-60 (in Japanese with English title).@2006@@@NIES-35@NIES35
2394@Ishihara, S., Horio, T., Kobara, Y., Yokoyama, A.@Evaluation of herbicide effects on microalgal cells by flow cytometric analysis.@J. Weed Sci. Tech.,@51,@239-248 (in Japanese with English summary).@2006@@herbicide; flow cytometry; algae; morphological change; recoverability; ecological risk assessment@NIES-230@NIES230@NIES-71@NIES71
2395@Shinohara, A., Imai, A., Komatsu, K., Matsushige, K., Nara, F.@Application of HPLC-PAD to highly sensitive analysis of dissolved carbohydrates and theit composition in lake water and extracellular organic matter derived from algae.@J. Jpn. Soc. Wat. Environ.,@31,@447-454 (in Japanese with English summary).@2008@@carbohydrates; DOM; HPLC-PAD; lake water; algal culture@NIES-74@NIES74@NIES-204@NIES204@NIES-44@NIES44
2396@Iwata, Y., Sugahara, I., Kimura, T., Kowa, H., Matsumoto, A., Noritake, K.@Properties of an algicidal bacterium (Flavobacterium sp.) against Karenia mikimotoi isolated from Ise Bay, Japan.@Nippon Suisan Gakkaishi,@70,@537-541 (in Japanese with English summary).@2004@@algicidal bacteria; red tide; Karenia mikimotoi; Flavobacterium@NIES-32@NIES32@NIES-1@NIES1@NIES-3@NIES3@NIES-5@NIES5
2397@Yukino, T., Hayashi, M., Inoue, Y., Imamura, J., Nagano, N., Murata, H.@Preparation of docosahexaenoic acid fortified Spirulina platensis and its lipid and fatty acid compositions.@Nippon Suisan Gakkaishi,@71,@74-79 (in Japanese with English summary).@2005@@docosahexaenoic acid; DHA; Spirulina; foods with function claims@NIES-39@NIES39
2398@Sato, M., Murata, Y., Mizusawa, M., Iwahashi, H., Oka, S.-I.@A simple and rapid dual-fluorescence viability assay for microalgae.@Microbiol. Cult. Coll.,@20,@53-59.@2004@@microalgae; SYTOX Green; viability assay; autofluorescence@NIES-32@NIES32@NIES-204@NIES204
2399@Watanabe, Y. & Sakai, J.@Bioluminescence imaging measurements of osillatory shear flows.@J. JSCE, @66,@71-75 (in Japanese with English summary).@2010@@@NIES-609@NIES609
2400@Matsubara, T., Nagasoe, S., Yamasaki, Y., Shikata, T., Shimasaki, Y., Oshima, Y., Honjo, T.@Inhibitory effects of centric diatoms on the growth of the dinoflagellate Akashiwo sanguinea.@Nippon Suisan Gakkaishi,@74,@598-606 (in Japanese with English summary).@2008@@Akashiwo sanguinea; allelopathy; growth inhibition; centric diatoms@NIES-324@NIES324
2401@Furusato, E., Asaeda, T., Fukuwatari, T.@Tolerance against prolonged darkness of three freshwater phytoplankton.@J. Jpn. Soc. Wat. Environ.,@1,@27-34 (in Japanese with English summary).@2001@@artificial circulation; phytoplankton; dark survival; community succession; Microcystis aeruginosa@NIES-96@NIES96@NIES-298@NIES298
2402@Yamaguchi, H., Nishijima, T., Nishitani, H., Fukami, K., Adachi, M.@Organic phosphorus utilization and alkaline phosphatase production of 3 red tide photoplankton.@Nippon Suisan Gakkaishi,@70,@123-130 (in Japanese with English summary).@2004@@Karenia mikimotoi; Skeletonema costatum; Heterosigma akashiwo; red tide phytoplankton; organic phosphorus; alkaline phosphatase@NIES-324@NIES324@NIES-5@NIES5
2403@Ishihara, S.@Development of risk assessment pocedure for evaluating effect of herbicides on primary productivity of river ecosystem.@Bull. Nat. Inst. Agro-Env. Sci.,@25,@1-92 (in Japanese with English summary).@2008@@@NIES-2717@NIES2717@NIES-2718@NIES2718@NIES-2719@NIES2719@NIES-2720@NIES2720@NIES-2721@NIES2721@NIES-2723@NIES2723@NIES-2725@NIES2725@NIES-2726@NIES2726@NIES-2727@NIES2727@NIES-2728@NIES2728@NIES-2730@NIES2730@NIES-2731@NIES2731@NIES-2732@NIES2732@NIES-2733@NIES2733@NIES-2722@NIES2722@NIES-2729@NIES2729@NIES-2724@NIES2724
2404@Oshimi, M., Fujimoto, N., Ohnishi, A., Suzuki, M., Akiba, M., Kunikane, S.@Isolation of bacteria lysing musty odor producing alga Phormidium tenue and its lytic characteristics.@J. Jpn. Soc. Wat. Environ.,@28,@379-384 (in Japanese with English summary).@2005@@alga-lytic bacteria; musty odor; Phormidium tenue; Pseudomonas KA6@NIES-512@NIES512@NIES-211@NIES211@NIES-244@NIES244@NIES-817@NIES817@NIES-227@NIES227@NIES-298@NIES298@NIES-96@NIES96
2405@Iwase, S., Abe, T.@Identification and change in concentration of musty-odor compounds during frowth in blue-green algae.@J. Sch. Marine Sci. Tech., Tokai Univ.,@8,@27-33.@2010@@@NIES-512@NIES512@NIES-2119@NIES2119
2406@Ozaki, K., Ohta, A., Iwata, C., Horikawa, A., Tsuji, K., Ito, E., Ikai, Y., Harada, K-I.@Lysis of cyanobacteria with volatile organic compounds.@Chemosphere,@71,@1531-1538.@2008@@Cyanobacteria; Lysis; Microorganism; Volatile compound; b-Cyclocitral@NIES-112@NIES112@NIES-73@NIES73@NIES-102@NIES102@NIES-298@NIES298@NIES-103@NIES103
2407@Sakai, H., Oguma, K., Katayama, H., Ohgaki, S.@Effects of low- or medium-pressure ultraviolet lamp irradiation on Microcystis aeruginosa and Anabaena variabilis.@Water Res., @41,@11-18.@2007@@Microcystis aeruginosa; Anabaena variabilis; Low-pressure ultraviolet lamp; Medium-pressure ultraviolet lamp; DNA damage; Photosynthetic activity@NIES-23@NIES23@NIES-98@NIES98
2408@Fukuzaki, K., Naito, K., Yoshioka, T., Sawayama, S., Imai, I.@Effects of humic substances on the growth of the harmful Raphidophyte Chattonella antiqua.@Bull. Fish. Sci. Hokkaido Univ.,@61,@23-28 (in Japanese with English summary).@2011@@Chattonella antiqua; Humic substance; Iron; Artificial medium; Culture experiment@NIES-1@NIES1
2409@Naito, K., Suzuki, M., Mito, S., Hasegawa, H., Matsui, M., Imai, I.@Effects of the substances secreted from Closterium aciculare (Charophyceae, Chlorophyta) on the growth of freshwater phytoplankton under iron-deficient conditions.@Plankton Benthos Res.,@1,@191-199.@2006@@Closterium aciculare; freshwater phytoplankton; growth; iron-complexing ligand; iron-deficient conditions@NIES-215@NIES215@NIES-248@NIES248@NIES-333@NIES333@NIES-528@NIES528@NIES-104@NIES104
2410@Nakai, S., Inoue, H., Hosomi, M., Okada, M., Murakami, A.@Control of phytoplankton growth by bioactive compounds extracted from macrophytes.@J. Jpn. Soc. Wat. Environ.,@18,@1012-1019 (in Japanese with English summary).@1995@@macrophyte; algae; allelopathy; antialgal bioactive compound; growth inhibition@NIES-35@NIES35@NIES-87@NIES87
2411@Okumura, C., Hasegawa, H., Mizumoto, H., Maki, T., Ueda, K.@Size fractionation of iron compounds in phytoplankton cultures in the presence of chelating ligands.@Bunseki Kagaku,@53,@1215-1221 (in Japanese with English summary).@2004@@iron; speciation; chelating ligands; phytoplankton growth@NIES-324@NIES324
2412@Izumi, Y., Aikawa, S., Matsuda, F., Hasunuma, T., Kondo, A.@Aqueous size-exclusion chromatographic method for the quantification of cyanobacterial native glycogen.@J. Chromatogr. B,@930,@90-97.@2013@@Size-exclusion chromatography; Native glycogen; Qantitative analysis; Polyhydroxy methacrylate; Microalgae; Arthrospira platensis @NIES-39@NIES39
2413@Yumoto, K., Kasai, F., Kawachi, M.@Taxonomic re-examination of Chlamydomonas strains maintained in the NIES-Collection.@Microbiol. Cult. Coll.,@29,@1-12.@2013@@@NIES-2314@NIES2314@NIES-2210@NIES2210@NIES-2209@NIES2209@NIES-2240@NIES2240@NIES-2315@NIES2315@NIES-2231@NIES2231@NIES-2234@NIES2234@NIES-2239@NIES2239@NIES-2211@NIES2211@NIES-2206@NIES2206@NIES-2204@NIES2204@NIES-1848@NIES1848@NIES-1021@NIES1021@NIES-438@NIES438@NIES-2318@NIES2318@NIES-2214@NIES2214@NIES-2247@NIES2247@NIES-2316@NIES2316@NIES-2317@NIES2317@NIES-2319@NIES2319@NIES-158@NIES158@NIES-2233@NIES2233@NIES-2208@NIES2208@NIES-2201@NIES2201@NIES-2220@NIES2220@NIES-2499@NIES2499@NIES-440@NIES440@NIES-1849@NIES1849@NIES-2323@NIES2323@NIES-2324@NIES2324@NIES-2236@NIES2236@NIES-2237@NIES2237@NIES-2203@NIES2203@NIES-2246@NIES2246@NIES-2248@NIES2248@NIES-2213@NIES2213@NIES-2228@NIES2228@NIES-1733@NIES1733@NIES-1022@NIES1022@NIES-2216@NIES2216@NIES-2238@NIES2238@NIES-3284@NIES3284@NIES-2218@NIES2218@NIES-2229@NIES2229@NIES-884@NIES884@NIES-2230@NIES2230@NIES-2575@NIES2575@NIES-2235@NIES2235@NIES-2463@NIES2463@NIES-2224@NIES2224@NIES-2219@NIES2219@NIES-2222@NIES2222@NIES-2223@NIES2223@NIES-2241@NIES2241@NIES-2576@NIES2576@NIES-2577@NIES2577@NIES-2578@NIES2578@NIES-2225@NIES2225@NIES-437@NIES437@NIES-2320@NIES2320@NIES-2321@NIES2321@NIES-2322@NIES2322@NIES-2242@NIES2242@NIES-2202@NIES2202@NIES-2462@NIES2462@NIES-968@NIES968@NIES-1048@NIES1048@NIES-2207@NIES2207@NIES-2215@NIES2215@NIES-2212@NIES2212@NIES-2243@NIES2243@NIES-2579@NIES2579
2414@Takeda, F., Nakano, K., Aikawa, Y., Nishimura, O., Shimada, Y., Fukuro, S., Tanaka, H., Hayashi, N. Inamori, Y.@Allelopathic potential against Microcystis aeruginosa by emergent macrophytes on floating beds.@J. Water Environ. Technol.,@9,@371-380.@2011@@allelopathy; Carex dispalata; floating bed; Microcystis aeruginosa; Phragmites australis; Typha domingensis@NIES-87@NIES87
2415@Yoshikawa, T., Ikeda, Y., Sakata, T., Maeda, H.@Cloning and analysis of the ggpS gene from cyanobacteria Arthrospira spp. involved in the synthesis of an osmolyte glucosylglycerol.@Biocontrol Science,@16,@55-61.@2011@@Arthrospira; ggpS; Glucosylglycerol; Osmolyte; Synechococcus@NIES-39@NIES39
2416@Liu, W., Au, D. W.T., Anderson, D. M., Lam, P. K.S., Wu, R. S.S.@Effects of nutrients, salinity, pH and light: dark cycle on the production of reactive oxygen species in the alga Chattonella marina.@J. Exp. Mar. Biol. Ecol., @346,@76-86.@2007@@Chattonella marina; Iron; Nutrient; pH; Physical parameters; Plasma membrane; Reactive oxygen species; Redox@NIES-3@NIES3
2417@Kato, Y., Imamura, N.,@Effect of calcium ion on uptake of amino acids by symbiotic Chlorella F36-ZK isolated from Japanese Paramecium bursaria.@Plant Sci., @174,@88-96.@2008@@Paramecium bursaria; Chlorella; Calcium; Divalent cation; Amino acid transport; Symbiosis@NIES-2157@NIES2157@NIES-227@NIES227@NIES-2540@NIES2540
2418@Donia, M. S., Schmidt, E. W.@Linking chemistry and genetics in the growing cyanobactin natural products family.@Chem. Biol., @18,@508-519.@2011@@@NIES-596@NIES596
2419@Weiz, A. R., Ishida, K., Makower, K., Ziemert, N., Hertweck, C., Dittmann, E.@Leader peptide and a membrane protein scaffold guide the biosynthesis of the tricyclic peptide microviridin.@Chem. Biol., @18,@1413-1421.@2011@@@NIES-843@NIES843@NIES-298@NIES298
2420@Tsuji, Y., Suzuki, I., Shiraiwa, Y.@Photosynthetic carbon assimilation in the coccolithophorid Emiliania huxleyi (Haptophyta): Evidence for the predominant Operation of the C ₃ cycle and the Contribution of β-carboxylases to the active anaplerotic reaction.@Plant Cell Physiol., @50,@318-329.@2009@@@NIES-837@NIES837
2421@Abe, J., Hiwatashi, Y., Ito, M., Hasebe, M., Sekimoto, H.@Expression of exogenous genes under the control of endogenous HSP70 and CAB promoters in the Closterium peracerosum–strigosum–littorale complex.@Plant Cell Physiol., @49,@625-632.@2008@@@NIES-68@NIES68
2422@Tsuji, Y., Suzuki, I., Shiraiwa, Y.@Enzymological evidence for the function of a plastid-located pyruvate carboxylase in the Haptophyte alga Emiliania huxleyi: a novel pathway for the production of C ₄ compounds.@Plant Cell Physiol., @53,@1043-1052.@2012@@@NIES-837@NIES837
2423@Araie, H., Sakamoto, K., Suzuki, I., Shiraiwa, Y.@Characterization of the selenite uptake mechanism in the coccolithophore Emiliania huxleyi (Haptophyta).@Plant Cell Physiol., @52,@1204-1210.@2011@@@NIES-837@NIES837
2424@Kayano, K. & Shiraiwa, Y.@Physiological regulation of coccolith polysaccharide production by phosphate availability in the coccolithophorid Emiliania huxleyi.@Plant Cell Physiol., @50,@1522-1531.@2009@@@NIES-837@NIES837
2425@Abe, J., Hori, S., Tsuchikane, Y., Kitao, N., Kato, M., Shiraiwa, H.@Stable nuclear transformation of the Closterium peracerosum–strigosum–littorale complex.@Plant Cell Physiol., @52,@1676-1685.@2011@@@NIES-68@NIES68@NIES-67@NIES67
2426@Ziemert, N., Ishida, K., Weiz, A., Hertweck, C., Dittmann, E.@Exploiting the natural diversity of microviridin gene clusters for discovery of novel tricyclic depsipeptides.@Appl. Environ. Microbiol.,@76,@3568-3574.@2010@@@NIES-100@NIES100@NIES-843@NIES843@NIES-102@NIES102@NIES-101@NIES101
2427@Koskenniemi, K., Lyra, C., Rajaniemi-Wacklin, P., Jokela, J., Sivonen, K.@Quantitative real-time PCR detection of toxic Nodularia cyanobacteria in the Baltic Sea.@Appl. Environ. Microbiol., @73,@2173-2179.@2007@@@NIES-81@NIES81@NIES-89@NIES89@NIES-102@NIES102
2428@Ando, T., Nagase, H., Eguchi, K., Hirooka, T., Nakamura, T., Miyamoto, K., Hirata, K.@A novel method using cyanobacteria for ecotoxicity test of veterinary antimicrobial agents.@Environ. Toxicol. Chem., @26,@601-606.@2007@@Antimicrobial agent; Cyanobacterium; Ecotoxicity test; Algal toxicity@NIES-23@NIES23@NIES-107@NIES107@NIES-44@NIES44@NIES-19@NIES19@NIES-3277@NIES3277
2429@Nishimura, Y., Kamikawa, R., Hashimoto, T., Inagaki, Y.@Separate origins of group I introns in two mitochondrial genes of the katablepharid Leucocryptos marina.@PLoS One, @7,@e37307 (article ID).@2012@@@NIES-1335@NIES1335@NIES-1333@NIES1333
2430@Kamikawa, R., Masuda, I., Oyama, K., Yoshimatsu, S., Sako, Y.@Genetic variation in mitochondrial genes and intergenic spacer region in harmful algae Chattonella species.@Fish. Sci.,@73,@871-880.@2007@@Chattonella sp.; cytochrome c oxidase subunit 1 (cox1); cytochrome c oxidase subunit 2 (cox2); genetic diversity; harmful algae; mitochondria@NIES-2@NIES2@NIES-85@NIES85@NIES-121@NIES121@NIES-1@NIES1@NIES-3@NIES3@NIES-14@NIES14@NIES-86@NIES86@NIES-115@NIES115@NIES-118@NIES118@NIES-161@NIES161@NIES-557@NIES557@NIES-558@NIES558@NIES-603@NIES603@NIES-671@NIES671@NIES-849@NIES849
2431@Brown, I. I., Mummey, D., Cooksey. K. E.@A novel cyanobacterium exhibiting an elevated tolerance for iron.@FEMS Microbiol. Ecol., @52,@307-314.@2005@@Novel cyanobacterium; Iron tolerance; Iron depositing hot spring; Great Yellowstone area@NIES-1031@NIES1031
2432@Hirano, T., Masho, R., Koizumi, D., Tabata, S., Suzuki, K., Sakabe, M., Nakano, Y., Sato, N., Sudo, R.@Ecotoxicity testing of bioremediation agents for shoreline oil-spill clean up.@Jpn. J. Environ. Toxicol., @9,@115-131.@2006@@ecotoxicity; bioremediation; oil-spill; acute toxicity; marine organisms@NIES-324@NIES324
2433@Yamasaki, Y., Nagasoe, S., Matsubara, T., Shikata, T., Shimasaki, Y., Oshima, Y., Honjo, T.@Allelopathic interactions between the bacillariophyte Skeletonema costatum and the raphidophyte Heterosigma akashiwo.@Mar. Ecol. Prog. Ser.,@339,@83-92.@2007@@Allelopathy; Bacillariophyceae; Skeletonema costatum; Raphidophyceae; Heterosigma akashiwo; Bi-algal culture; Growth inhibition@NIES-324@NIES324@NIES-10@NIES10
2434@Wu, Z.Y., Chen, G.Q., Chong, S.K., Mak, N.-K., Chen, F., Jiang, Y.@Ultraviolet-B radiation improves astaxanthin accumulation in green microalga Haematococcus pluvialis. @Biotechnol. Lett., @32,@1911-1914.@2010@@Antioxidant enzyme; Astaxanthin; Haematococcus pluvialis; Ultraviolet-B radiation@NIES-144@NIES144
2435@Zhang, L., Fan, Y., Shi, F., Qin, S., Liu, B.@Molecular cloning, characterization, and expression analysis of a cytosolic HSP90 gene from Haematococcus pluvialis.@J. Appl. Phycol.,@24,@1601-1612.@2012@@Haematococcus pluvialis; Heat shock protein 90; cDNA cloning; qRT-PCR; mRNA expression@NIES-144@NIES144
2436@Domínguez-Bocanegra, A. R., Ponce-Noyola, T., Torres-Muñoz, J. A.@Astaxanthin production by Phaffia rhodozyma and Haematococcus pluvialis: a comparative study.@Appl. Microbiol. Biotechnol.,@75,@783-791.@2007@@Haematococcus pluvialis; Phaffia rhodozyma; Astaxanthin synthesis; Coconut milk@NIES-144@NIES144
2437@Ishifuji, S., Sato, Y., Imae, H., Takaara, T., Sano, D., Masago, Y., Omura, T.@Identification of Coagulation Inhibitor Proteins from Microcystis aeruginosa.@J. Jpn. Soc. Wat. Environ.,@33,@73-79 (in Japanese with English summary).@2010@@Microcystis aeruginosa; coagulation inhibition; phage display; polyaluminum chloride; protein@NIES-91@NIES91
2438@Erhard, M., von Döhren, H., Jungblut, P.@Rapid typing and elucidation of new secondary metabolites of intact cyanobacteria using MALDI-TOF mass spectrometry.@Nat. Biotechnol.,@15,@906-909.@1997@@cyanobacteria; secondary metabolites; MALD-TOF; PSD; microcystin; anabaenopeptolins@NIES-90@NIES90
2439@Wullur, S., Sakakura, Y., Hagiwara, A.@Application of the minute monogonont rotifer Proales similis de Beauchamp in larval rearing of seven-band grouper epinephelus septemfasciatus.@Aquaculture, @315,@355-360.@2011@@Rotifer; Proales similis; Brachionus rotundiformis; Live food; Fatty acid; Epinephelus septemfasciatus@NIES-2146@NIES2146
2440@Sakai, H., Katayama, H., Oguma, K., Ohgaki, S.@Effect of photoreactivation on ultraviolet inactivation of Microcystis aeruginos.@Water Sci. Technol.,@63,@1224-1229.@2011@@Microcystis aeruginosa; photoreactivation; UV treatment@NIES-98@NIES98
2441@Hariganeya, N., Tanimoto, Y., Yamaguchi, H., Nishimura, T., Tawong, W., Sakanari, H., Yoshimatsu, T., Sato, S., Preston, C. M., Adachi, M.@Quantitative PCR method for enumeration of cells of cryptic species of the toxic marine dinoflagellate Ostreopsis spp. in Coastal Waters of Japan.@PLoS One, @8,@e57627 (article ID).@2013@@@NIES-4118@NIES4118
2442@Katsumata, M., Koike, T., Nishikawa, M., Kazumura, K., Tsuchiya, H.@Rapid ecotoxicological bioassay using delayed fluorescence in the green alga Pseudokirchneriella subcapitata.@Water Res., @40,@3393-3400.@2006@@Delayed fluorescence; Algal growth inhibition test; Pseudokirchneriella subcapitata; Simazine (CAT); 3,5-dichlorophenol (3,5-DCP)@NIES-35@NIES35
2443@Kamaya,Y., Tsuboi, S., Takada, T., Suzuki, K.@Growth stimulation and inhibition effects of 4-hydroxybenzoic acid and some related compounds on the freshwater green alga Pseudokirchneriella subcapitata.@Arch. Environ. Contam. Toxicol.,@51,@537-541.@2006@@@NIES-35@NIES35
2444@Suda, T., Hata, T., Kawai, S., Okamura, H., Nishida, T.@Treatment of tetracycline antibiotics by laccase in the presence of 1-hydroxybenzotriazole.@Bioresour. Technol.,@103,@498-501.@2012@@Tetracycline antibiotics; Bacterial growth inhibition; Algal growth inhibition; Laccase; 1-Hydroxybenzotriazole@NIES-35@NIES35
2445@Inoue, Y., Hata, T., Kawai, S., Okamura,H., Nishida, T.@Elimination and detoxification of triclosan by manganese peroxidase from white rot fungus.@J. Hazard. Mater., @180,@764-767.@2010@@Triclosan; Bacterial growth inhibition; Algal growth inhibition; Manganese peroxidase; Ligninolytic enzymes; White rot fungi@NIES-35@NIES35
2446@Aoyama, K., Miyata, N., Iwahori, K.@Evalution of DNA damaging potential in landfill leachates by comet assay using Euglena gracilis.@Jpn. J. Water Treat. Biol., @41,@73-81.@2005@@comet assay; Euglena gracilis; landfill leachate; umu test@NIES-49@NIES49
2447@Sato, S., Nishimura, T., Uehara, K., Sakanari, H., Tawong, W., Hariganeya, N., Smith, K., Rhodes, L., Yasumoto, T., Taira, Y., Suda, S., Yamaguchi, H., Adachi, M.@Phylogeography of Ostreopsis along West Pacific coast, with special reference to a novel clade from Japan.@PLoS One, @6,@e27983 (article ID).@2011@@@NIES-3351@NIES3351
2448@Hamana, K., Niitsu, M., Hayashi, H.@Occurrence of homospermidine and thermospermine as a cellular polyamine in unicellular chlorophyte and multicellular charophyte green algae@J. Gen. Appl. Micobiol.,@59,@313-319.@2013@@green alga; homospermidine; polyamine; thermospermine@NIES-18@NIES18@NIES-306@NIES306@NIES-640@NIES640@NIES-1409@NIES1409@NIES-1410@NIES1410@NIES-1419@NIES1419@NIES-2199@NIES2199@NIES-722@NIES722@NIES-1837@NIES1837@NIES-2164@NIES2164@NIES-3374@NIES3374@NIES-836@NIES836@NIES-160@NIES160@NIES-360@NIES360@NIES-363@NIES363@NIES-1411@NIES1411@NIES-151@NIES151@NIES-296@NIES296@NIES-255@NIES255
2449@Hasunuma, T., Kikuyama, F., Matsuda, M., Aikawa, S., Izumi, Y., Kondo, A.@Dynamic metabolic profiling of cyanobacterial glycogen biosynthesis under conditions of nitrate depletion.@J. Exp. Bot., @64,@2943-2954.@2013@@¹³C; cyanobacteria; glycogen; in vivo labelling; metabolic turnover; metabolomics@NIES-39@NIES39
2450@Yamamoto, Y., Kawashima, D., Hashizume, A., Hisamotsu, M., Isono, N.@Purification and characterization of 1,3-β-D-glucan phosphorylase from Ochromonas danica.@Biosci. Biotechnol. Biochem.,@77,@130411-130416.@2013@@1,3-β-D-glucan phosphorylase; Ochromonas danica; laminarin; laminarioligosaccharides; 1,3-β-D-glucan@NIES-2142@NIES2142
2451@Nagase, T., Okuda, M., Wakabayashi, K.@The investigation of the growth characteristics of phytoplankton, a cause of mildew odor in Lake Koyama.@Bull. Tottori Pre. Environ. Sanitation Res. Center,@49,@24-29 (in Japanese with English summary).@2008@@@NIES-2871@NIES2871
2452@Nakai, S., Seto, N., Asaoka, S., Okuda, T., Nishijima, W.@Impact of the allelopathic effect of a submerged macrophyte Myriophyllum spicatum on the competition between the cyanobacterium Microcystis aeruginosa and the green alga Scenedesmus obliquus.@J. Jpn. Soc. Wat. Environ.,@36,@85-90 (in Japanese with English summary).@2013@@Allelopathy; Cyanobacterium; Dominance prevention; Fatty acid; Polyphenol; Submerged macrophyte@NIES-87@NIES87@NIES-2279@NIES2279
2453@Shoji, R., Okita, N., nakanishi, H.@Analysis of the effects of humic acid extracter from the Tama River sediment on the Pseudokirchneriella subcapitata growth inhibition by copper by NICA (non-ideal competitive adsorption)-Donnan model.@J. Jpn. Soc. Wat. Environ.,@36,@1-9 (in Japanese with English summary).@2013@@River sediment; Ecotoxicity; Heavy metal@NIES-35@NIES35
2454@Enomoto, J., Kimura, T., Nomura, Y., Kabayama, J., Maita, M.@The safety of febantel for tiger puffer and its environmental impact.@Nippon Suisan Gakkaishi,@79,@400-409 (in Japanese with English summary).@2013@@tiger puffer; febantel; Heterobothrium okamotoi@NIES-324@NIES324
2455@Ohki, K., Rueter, J. G., Fujita, Y.@Cultures of the pelagic cyanophytes Trichodesmium erythraeum and T. thiebautii in synthetic medium.@Mar. Biol., @91,@9-13.@1986@Medium (Modified Aquil medium)@@NIES-3600@NIES3600
2456@Onduka, T., Ojima, D., Ito, M., Ito, K., Mochida, K., Fujii, K.@Toxicity of degradation products of the antifouling biocide pyridine triphenylborane to marine organisms.@Arch. Environ. Contam. Toxicol.,@65,@724-732.@2013@@@NIES-324@NIES324
2457@Saijo, H., Tsuruta, K., Kusumoto, N., Ashitani, T., Takahashi, K.@Growth inhibition activities of Sugi bark components against Heterosigma akashiwo.@J. Wood Sci.,@59,@238-242.@2013@@Sugi bark; Extract; Inhibition activity; Red tide plankton; Heterosigma akashiwo@NIES-293@NIES293
2458@Ota, S., Matsuda, T., Takeshita, T., Yamazaki, T., Kazama, Y., Abe, T., Kawano, S.@Phenotypic spectrum of Parachlorella kessleri (Chlorophyta) mutants produced by heavy-ion irradiation.@Bioresour. Technol.,@149,@432-438.@2013@@Algae; Breeding; Parachlorella; Heavy-ion irradiation; Mutation@NIES-2152@NIES2152
2459@Watanabe, M., Sato, M., Kondo, K., Narikawa, R., Ikeuchi, M.@Phycobilisome model with novel skeleton-like structures in a glaucocystophyte Cyanophora paradoxa.@Biochim. Biophys. Acta-Bioenerg.,@1817,@1428-1435.@2012@@Antenna; Cyanophora paradoxa NIES 547; Glaucocystophyte; Linker protein; Phycobilisome, skeleton-like model@NIES-547@NIES547
2460@Fukuda, S., Suzuki, I., Hama, T., Shiraiwa, Y.@Compensatory response of the unicellular-calcifying alga Emiliania huxleyi (Coccolithophoridales, Haptophyta) to ocean acidification.@J. Oceanogr., @67,@17-25.@2011@@Alkalization; Calcification; Coccolithophorid; Emiliania huxleyi; Inorganic carbon; Ocean acidification; pH change; pH effect; Photosynthesis; Respriration@NIES-837@NIES837
2461@Smith, D. R., Lee, R. W.@Low nucleotide diversity for the expanded organelle and nuclear genomes of Volvox carteri supports the mutational-hazard hypothesis.@Mol. Biol. Evol., @27,@2244-2256.@2010@@genetic diversity; mitochondrial genome; plastid genome; Chlamydomonas reinhardtii; green algae; genome architecture@NIES-398@NIES398@NIES-397@NIES397
2462@Yoshida, T., Nakai, R., Seto, H., Wang, M.-K., Iwataki, M., Hiroishi, S.@Production of superoxide anion and hydrogen peroxide associated with cell growth of Chattonella antiqua.@Microbes Environ.,@18,@216-222.@2003@@dinoflagellate; Heterocapsa circularisquama; internal transcribed spacer; ITS; red tide@NIES-472@NIES472@NIES-474@NIES474
2463@Kim, D., Waranabe, M., Nakayasu, Y., Kohata, K.@Production of superoxide anion and hydrogen peroxide associated with cell growth of Chattonella antiqua.@Aquat. Microb. Ecol.,@35,@57-64.@2004@@Cell cycles; Chattonella antiqua; Hydrogen peroxide; NIES culture tank; Reactive oxygen species; Red tide; Superoxide anion@NIES-1@NIES1
2464@Kim, D., Waranabe, M., Nakayasu, Y., Kohata, K.@Changes in O₂^- and H₂O₂ production by Chattonella antiqua during diel vertical migration under nutrient stratification.@Aquat. Microb. Ecol.,@39,@183-191.@2005@@Chattonella antiqua; Diel vertical migration; Hydrogen peroxide; Nutrient stratification; Reactive oxygen species; Superoxide anion@NIES-1@NIES1
2465@Tang, J. Y., Anderson, D. M., Au, D. W. T. @Hydrogen peroxide is not the cause of fish kills associated with Chattonella marina: Cytological and physiological evidence.@Aquat. Toxicol.,@72,@351-360.@2005@@Harmful algal bloom; HAB; Fish kill mechanism; Osmoregulation; Reactive oxygen species; Quantitative ultrastructure; Chattonella marina@NIES-3@NIES3
2466@Woo, S. P. S., Liu, W., Au, D. W. T., Anderson, D. M., Wu, R. S. S.@Antioxidant responses and lipid peroxidation in gills and erythrocytes of fish (Rhabdosarga sarba) upon exposure to Chattonella marina and hydrogen peroxide: implications on the cause of fish kills.@J. Exp. Mar. Biol. Ecol., @336,@230-241.@2006@@Antioxidant responses; Harmful algal blooms; Lipid peroxidation; Reactive oxygen species@NIES-3@NIES3
2467@Hasegawa, H., Maki, T., Asano, K., Ueda, K., Ueda, K.@Detection of iron(III)-binding ligands originating from marine phytoplankton using cathodic stripping voltammetry.@Anal. Sci., @20,@89-93.@2004@@@NIES-1@NIES1@NIES-16@NIES16
2468@Nakamura, Y.@Growth and grazing of a large heterotrophic dinoflagellate, Noctiluca scintillans, in laboratory cultures.@J. Plankton Res.,@20,@1711-1720@1998@@@NIES-440@NIES440@NIES-2@NIES2@NIES-7@NIES7
2469@Takamura, Y., Yamada, T., Kimoto, A., Kanehama, N., Tanaka, T., Nakadaira, S., Yagi, O.@Growth inhibiton of Microcystis cyanobacteria by L-lysine and disappearance of natural Microcystis blooms with spraying.@Microbes Environ.,@19,@31-39.@2004@@Microcystis cyanobacteria; L-lysine; growth inhibition; water bloom; Euglena; Phormidium@NIES-102@NIES102
2470@Kakimoto, M., Ishikawa, T., Miyagi, A., Saito, K., Miyazaki, M., Asaeda, T., Yamaguchi, M., Uchiyama, H., Kawai-Yamada, M.@Culture temperature affects gene expression and metabolic pathways in the 2-methylisoborneol-producing cyanobacterium Pseudanabaena galeata.@J. Plant Res.,@171,@292-300.@2014@@2-MIB; Cyanobacteria; Gene expression; Metabolomics; Temperature-induction@NIES-512@NIES512
2471@Pan, H., Song, L., Liu, Y., Börner, T.@Detection of hepatotoxic Microcystis strains by PCR with intact cells from both culture and environmental samples.@Arch. Microbiol., @178,@421-427.@2002@@Cyanobacteria; Microcystis; Microcystin; Toxin; Peptide synthetase; Whole-cell PCR@NIES-595@NIES595@NIES-610@NIES610@NIES-98@NIES98@NIES-101@NIES101@NIES-90@NIES90@NIES-42@NIES42
2472@Tillett, D., Neilan, B. A.@Xanthogenate nucleic acid isolation from cultured and environmental cyanobacteria.@J. Phycol.,@36,@251-258.@2000@@cyanobacteria; DNA extraction; nucleic acids; PCR; xanthogenate@NIES-107@NIES107@NIES-81@NIES81@NIES-102@NIES102
2473@Ward, C. J., Beattie, K. A., Lee, E. Y. C., Codd, G. A.@Colorimetric protein phosphatase inhibition assay of laboratory strains and natural blooms of cyanobacteria: comparisons with high-performance liquid chromatographic analysis for microcystins.@FEMS Mircobiol. Lett.,@153,@465-473.@1997@@Microcystin; Protein phosphatase; Cyanobacteria; High-performance liquid chromatography@NIES-595@NIES595@NIES-102@NIES102@NIES-298@NIES298@NIES-103@NIES103@NIES-104@NIES104@NIES-42@NIES42
2474@Dimier, C., Giovanni, S., Ferdinando, T., Brunet, C.@Growth and photoregulation dynamics of the picoeukaryote Pelagomonas calceolata in fluctuating light.@Limnol. Oceanogr.,@54,@823-836.@2009@@@NIES-2690@NIES2690
2475@Mazalová, P., Šarhanová, P., Ondřej, V., Poulíčková, A.@Quantificaion of DNA content in freshwater microalgae using flow cytometry: a modified protocol for selected green microalgae.@Fottea, @11,@317-328.@2011@@DNA content; flow cytometry; desmids; microalgae; standards; Micrasterias pinnatifida@NIES-783@NIES783
2476@Kamikawa, R., Brown, M. W., Nishimura, Y., Sako, Y., Heiss, A. A., Yubuki, N., Gawryluk, R., Simpson, A. G. B., Roger, A. J., Hashimoto, T., Inagaki, Y.@Parallel re-modeling of EF-1α function: divergent EF-1α genes co-occur with EFL genes in diverse distantly related eukaryotes.@BMC Evol. Biol., @13,@131 (article ID).@2013@@Diatoms; Differential Gene Loss; EF-1α; EFL; Functional Remodeling; Goniomonas; Pythium; Spizellomyces; Thecamonas@NIES-534@NIES534@NIES-1373@NIES1373@NIES-1371@NIES1371@NIES-1374@NIES1374@NIES-1349@NIES1349@NIES-417@NIES417
2477@Kawai, H., Inouye, I.@Flagellar autofluorescence in forty-four chloraphyll c-containig algae.@Phycologia, @28,@222-227.@1989@@@NIES-15@NIES15@NIES-5@NIES5@NIES-161@NIES161
2478@Asai, R., Matsukawa, R., Ikebukuro, K., Karube, I.@Highly sensitive chemiluminescence flow-injection detection of the red tide phytoplankton Heterosigma carterae.@Anal. Chim. Acta, @390,@237-244.@1999@@Chemiluminescence; Flow injection analysis; Red tide phytoplankton; Superoxide; Hydrogen peroxide; Heterosigma carterae@NIES-586@NIES586@NIES-6@NIES6
2479@Lee, Y.-K., Ahn, C.-Y., Kim, H.-S., Oh, H.-M.@Cyanobactericidal effect of Rhodococcus sp. isolated from eutrophic lake on Microcystis sp.@Biotechnol. Lett.,@32,@1673-1678.@2010@@Algicide; Bloom; Cyanobacteria; Microcystis; Rhodococcus@NIES-843@NIES843@NIES-23@NIES23
2480@Sano, T., Takagi, H., Nagano, K., Nishikawa, M., Kaya, K.@Accurate LC-MS analyses for microcystions using per-¹⁵N-labeled microcystins.@Anal. Bioanal. Chem.,@399,@2511-2516.@2011@@Microcystin; Stable isotope; Surrogate; Liquid chromatography-mass spectrometry; Accurate analysis@NIES-107@NIES107
2481@Kawahata, C., Yamamuro, M., Shiraiwa, Y.@Changes in alkaline band formation and calcification of corticated charophyte Chara globularis.@SpringerPlus,@2,@85 (article ID).@2013@@Chara corallina; Chara globularis; Alkaline band; Acid band; SEM@NIES-1585@NIES1585
2482@Eikrem, W., Romari, K., Latasa, M., Le Gall, F., Throndsen, J., Vaulot, D.@Florenciella parvula gen. et sp. nov. (Dictyochophyceae, Heterokontophyta), a small flagellate isolated from the English Channel.@Phycologia,@43,@658-668.@2004@@@NIES-2684@NIES2684
2483@Kaneko, H., Shimada, A. Hirayama, K.@Short-term algal toxicity test based on phosphate uptake.@Water Res., @38,@2173-2177.@2004@@Selenastrum capricornutum; Phosphate uptake; Short-term toxicity test@NIES-35@NIES35
2484@Miyagishima, S., Suzuki, K., Okazaki, K., Kabeya, Y.@Expression of the nucleus-encoded chloroplast division genes and proteins regulated by the algal cell cycle.@Mol. Biol. Evol., @29,@2957-2970.@2012@@cell cycle; chloroplast division; endosymbiosis; endosymbiotic gene transfer@NIES-296@NIES296@NIES-484@NIES484@NIES-547@NIES547@NIES-1332@NIES1332@NIES-2170@NIES2170@NIES-3377@NIES3377@NIES-4696@NIES4696
2485@Hata, N., Ogbonna, J. C., Hasegawa, Y., Taroda, H., Tanaka, H.@Production of astaxanthin by Haematococcus pluvialis in a sequential heterotrophic-photoautotrophic culture.@J. Appl. Phycol., @13,@395-402.@2001@@astaxanthin; carotenoids; Haematococcus pluvialis; heterotrophic; photoautotrophic; two phase culture@NIES-144@NIES144
2486@Kobayashi, M.@In vivo antioxidant role of astaxanthin under oxidative stress in the green alga Haematococcus pluvialis.@Appl. Microbilo. Biotechnol.,@54,@550-555.@2000@@@NIES-144@NIES144
2487@Kaewpintong, K., Shotipruk, A., Powtongsook, S., Pavasant, P.@Photoautotrophic high-density cultivation of vegetative cells of Haematococcus pluvialis in airlift bioreactor.@Bioresour. Technol.,@98,@288-295.@2007@@Airlift bioreactors; Astaxanthin; Autotrophic; Bioprocess design; Bubble columns; Microalgae@NIES-144@NIES144
2488@Kobayashi, M., Okada, T.@Protective role of astaxanthin against u.v.-B irradiation in the green alga Haematococcus pluvialis.@Biotechnol. Lett.,@22,@177-181.@2000@@antioxidant; astaxanthom; Haematococcus pluvialis oxidative stress; u.v.-B;@NIES-144@NIES144
2489@Chumpolkulwong, N., Kakizono, T., Ishii, H.@Enzymatic conversion of b-carotene to astaxanthin by cell-extracts of a green alga Haematococcus pluvialis.@Biotechnol. Lett.,@19,@443-446.@1997@@@NIES-144@NIES144
2490@Yabuki, A., Ishida, K-I.@Mataza hastifera n. g., n. sp.: a possible new lineage in the Thecofilosea (Cercozoa). @J. Eucaryot. Microbiol.,@58,@94-102.@2011@@Cryomonadida; Cryothecomonas; environmental sequence; extrusome; phylogeny; Protaspis; taxonomy; ultrastructure@NIES-2568@NIES2568
2491@Dorantes-Aranda, J. J., Nichols, P. D., Waite, T. D., Hallegraeff, G. M. @Strain variability in fatty acid composition of Chattonella marina (Raphidophyceae) and its relation to differing ichthyotoxicity toward rainbow trout gill cells.@J. Phycol., @2,@427-438.@2013@@Aldehydes; Chattonella marina; fatty acids; harmful phytoplankton; ichthyotoxicity; rainbow trout gill cell line; RT gill-W1 @NIES-118@NIES118
2492@Shao, J., Liu, D., Gong, D., Zeng, Q., Yan, Z., Gu, J.-D.@Inhibitory effects of sanguinarine against the cyanobacterium Microcystis aeruginosa NIES-843 and possible mechanisms of action. @Aquat. Toxicol.,@142-143,@257-263.@2013@@Aldehydes; Chattonella marina; fatty acids; harmful phytoplankton; ichthyotoxicity; rainbow trout gill cell line; RT gill-W1 @NIES-843@NIES843
2493@Le Gall, F., Rigaut-Jalabert, F., Marie, D., Garczareck, L., Viprey, M., Godet, A., Vaulot, D.@Picoplankton diversity in the South-East Pacific Ocean from cultures.@Biogeosciences,@5,@203-214.@2008@@@NIES-2582@NIES2582
2494@Jouenne, F., Eikrem, W., Le Gall, F., Johnsen, G., Vaulot, D.@Prasinoderma singularis sp. nov. (Prasinophyceae, Chlorophyta), a solitary coccoid prasinophyte from the South-East Pacific Ocean.@Protist,@162,@70-84.@2011@@binary fission; field emission scanning electron microscopy (FE-SEM); picoplankton; Prasinoderma; Prasinophyceae; taxonomy@NIES-2582@NIES2582
2495@Guillou, L., Chrétiennot-Dinet, M. J., Boulben, S., Moon-van der Staay, S. Y., Vaulot, D.@Symbiomonas scintillans gen. et sp. nov. and Picophagus flagellatus gen. et sp. nov. (Heterokonta): two new heterotrophic flagellates of picoplanktonic size.@Protist,@150,@383-398.@1999@@@NIES-2586@NIES2586@NIES-2589@NIES2589
2496@Fuller, N. J., Campbell, C., Allen, D. J., Pitt, F. D., Le Gall, F., Vaulot, D., Scanlan, D. J.@Analysis of photosynthetic picoeukaryote diversity at open ocean sites in the Arabian Sea using a PCR biased towards marine algal plastids. @Aquat. Microb. Ecol.,@43,@79-93.@2006@@Photosynthetic picoeukaryotes; Plastid 16S rRNA; Arabian Sea; PCR@NIES-2588@NIES2588@NIES-2687@NIES2687@NIES-2586@NIES2586@NIES-2673@NIES2673@NIES-2690@NIES2690@NIES-2693@NIES2693@NIES-2589@NIES2589@NIES-2672@NIES2672
2497@Guillou, L., Moon-van der Staay, S. Y., Claustre, H., Partensky, F., Vaulot, D.@Diversity and abundance of Bolidophyceae (Heterokonta) in two oceanic regions.@Appl. Environ. Microbiol.,@65,@4528-4536.@1999@@@NIES-2682@NIES2682@NIES-2586@NIES2586@NIES-2691@NIES2691@NIES-2589@NIES2589
2498@Guillou, L., Jacquet, S., Chrétiennot-Dinet, M. J., Vaulot, D.@Grazing impact of two small heterotrophic flagellates on Prochlorococcus and Synechococcus.@Aquat. Microb. Ecol.,@26,@201-207.@2001@@@NIES-2586@NIES2586@NIES-2589@NIES2589
2499@Man-Aharonovich, D., Philosof, A., Kirkup, B. C., Le Gall, F., Yogev, T., Berman-Frank, I., Polz, M. F., Vaulot, D., Béjà, O.@Diversity of active marine picoeukaryotes in the Eastern Mediterranean Sea unveiled using photosystem-II psbA transcripts.@ISME J.,@4,@1044-1052.@2010@@picoeukaryotes; PPEs; psbA; transcripts; Mediterranean Sea; diversity@NIES-2687@NIES2687@NIES-2682@NIES2682@NIES-2588@NIES2588
2500@McDonald, S. M., Plant, J. N. Worden, A. Z.@The mixed lineage nature of nitrogen transport and assimilation in marine eukaryotic phytoplankton: a case study of Micromonas.@Mol. Biol. Evol.,@27,@2268-2283.@2010@@nitrogen; Micromonas; Ostreococcus; green algae; green lineage; quantitative PCR; genomics; phylogeny@NIES-2672@NIES2672
2501@Zhu, F., Massana, R., Not, F., Marie, D., Vaulot, D.@Mapping of picoeucaryotes in marine ecosystems with quantitative PCR of the 18S rRNA gene.@FEMS Microbiol. Ecol.,@52,@79-92.@2005@@Coastal ecosystems; Ecology; Fluorescent in situ hybridization; Picoplankton; Prasinophytes; Quantitative PCR@NIES-2687@NIES2687@NIES-2673@NIES2673
2502@Not, F., Simon, N., Biegala, I. C., Vaulot, D.@Application of fluorescent in situ hybridization coupled with tyramide signal amplification (FISH-TSA) to assess eukaryotic picoplankton composition.@Aquat. Microb. Ecol.,@28,@157-166.@2002@@Fluorescent in situ hybridization; Tyramide signal amplification; Picoplankton; Eukaryotes; Coastal waters; Diversity@NIES-2682@NIES2682@NIES-2673@NIES2673
2503@Cardol, P., Bailleul, B., Rappaport, F., Derelle, E., Béal, D., Breyton, C., Bailey, S., Wollman, F. A., Grossman, A., Moreau, H., Finazzi, G.@An original adaptation of photosynthesis in the marine green alga Ostreococcus.@Proc. Nati. Acad. Sci. U. S. A.,@105,@7881-7886.@2008@@marine environment; PTOX; water cycle; eletron flow; photoprotection@NIES-2674@NIES2674
2504@Guillou, L., Chrétiennot-Dinet, M. J., Medlin, L. K., Claustre, H., Loiseaux-de Goër, S., Vaulot, D.@Bolidomonas: a new genus with two species belonging to a new algal class, the Bolidophyceae (Heterokonta).@J. Phycol.,@35,@368-381.@1999@@Bolidophyceae; diatoms; Heterokonta; marine picoeukaryotes; oligotrophic ocean; Stramenopiles@NIES-2682@NIES2682
2505@Guillou, L.@Characterization of the Parmales: much more than the resolution of a taxonomic enigma.@J. Phycol.,@47,@2-4.@2011@@@NIES-3371@NIES3371@NIES-2682@NIES2682@NIES-3370@NIES3370@NIES-3369@NIES3369
2506@Reid, E. L., Worthy, C. A., Probert, I., Ali, S.T., Love, J., Napier, J., Littlechild, J. A., Somerfield, P. J., Allen , M. J.@Coccolithophores: functional biodiversity, enzymes and bioprospecting.@Mar. Drugs.,@9,@586-602.@2011@@functional biodiversity; bioprospecting; biocatalysis; coccolithophore@NIES-2697@NIES2697
2507@Dufresne, A., Garczarek, L., Partensky, F.@Accelerated evolution associated with genome reduction in a free-living prokaryote.@Genome Biol.,@6,@R14 (article ID).@2005@@@NIES-2880@NIES2880@NIES-2887@NIES2887
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2521@Shimada, A., Maruyama, T., Miyachi, S.@Vertical distributions and photosynthetic action spectra of two oceanic picophytoplankters, Prochlorococcus marinus and Synechococcus sp..@Mar. Biol.,@127,@15-23.@1996@@@NIES-2886@NIES2886@NIES-2884@NIES2884
2522@West, N. J., Schönhuber, W. A., Fuller, N. J., Amann, R. I., Rippka, R., Post, A. F., Scanlan, D. J.@Closely related Prochlorococcus genotypes show remarkably different depth distributions in two oceanic regions as revealed by in situ hybridization using 16S rRNA-targeted oligonucleotides.@Microbiol.,@147,@1731-1744.@2001@@cyanobacteria; Red Sea; oligonucleotide probes; 16S rRNA; TSA@NIES-2885@NIES2885
2523@Mary, I., Tu, C.-J., Grossman, A., Vaulot, D.@Effects of high light on transcripts of stress-associated genes for the cyanobacteria Synechocystis sp. PCC 6803 and Prochlorococcus MED4 and MIT9313.@Microbiol.,@150,@1271-1281.@2004@@@NIES-2887@NIES2887
2524@Dimier, C., Giovanni, S., Ferdinando, T., Brunet, C.@Comparative ecophysiology of the xanthophyll cycle in six marine phytoplanktonic species.@Protist,@160,@397-411.@2009@@diatoxanthin; photoprotection; phytoplankton; picoplankton; pigments; xanthophyll cycle@NIES-2687@NIES2687
2525@Houndan, A., Billard, C., Marie, D., Not, F., Sáez, A. G., Young, J. R., Probert, I.@Holococcolithophore-heterococcolithophore (Haptophyta) life cycles: flow cytometric analysis of relative ploidy levels.@Systematics and Biodiversity,@4,@453-465.@2003@@Coccolithophore; haplo-diploid; Haptophyta; heterococcolith; holococcolith; life cycle; microalgae; ploidy@NIES-2694@NIES2694@NIES-2697@NIES2697
2526@Langer, G., Nehrke, G., Probert, I., Ly, J., Ziveri, P.@Strain-specific responses of Emiliania huxleyi to change seawater carbonate chemistry.@Biogeosciences,@6,@2637-2646.@2009@@@NIES-2697@NIES2697
2527@Morel, A., Ahn, Y.-H., Partensky, F., Vaulot, D., Claustre, H.@Prochlorococcus and Synechococcus: a comparative study of their optical properties in relation to their size and pigmentation.@J. Mar. Res.,@51,@617-649.@1993@@@NIES-2880@NIES2880@NIES-2881@NIES2881
2528@Liu, Y., Hao, A., Iseri, Y., Kuba, T., Zhang, A.@A comparison of the mussel Anodonta woodiana's acute physiological responses to different algae diets.@JOCET,@2,@126-131.@2014@@Anodonta woodiana; microcystis aeruginosa; scenedesmus obliquus; scope for growth (SFG)@NIES-2279@NIES2279@NIES-90@NIES90
2529@Tasmin, R., Shimasaki, Y., Tsuyama, M., qiu, X., Khalil, F., Okino, N., Yamada, N., Fukuda, S., Kang, I.-J., Oshima, Y.@Elevated water temperature reduces the acute toxicity of the widely used herbicide diuron to a green alga, Pseudokirchneriella subcapitata.@Environ. Sci. Pollut. Res.,@21,@1064-1070.@2014@@Diuron; Pseudokirchneriella subcapitata; Water temperature; Photosynthetic activity; Intracellular H₂O₂.@NIES-35@NIES35
2530@Onduka,T., Ojima, D., Ito, M., Ito, K., Mochida, K., Fujii, K.@Toxicity of the antifouling biocide Sea-Nine 211 to marine algae, crustacea, and a polychaete.@Fish. Sci.,@79,@999-1006.@2013@@Risk assessment; Ecological toxicity; Coastal area of Japan; Perinereis nuntia; Sediment toxicity test; No-observed-effect concentration@NIES-324@NIES324
2531@Yamaguchi, H., Nakayama, T., Hongoh, Y., Kawachi, M., Inouye, I.@Molecular diversity of endosymbiotic Nephroselmis (Nephroselmidophyceae) in Hatena arenicola (Katablepharidophycota).@J. Plant Res.,@127,@241-247.@2014@@18S rRNA gene; 16S rRNA gene; Symbiosis; Hatena arenicola; Nephroselmiis; Phylogeny@NIES-1418@NIES1418@NIES-2864@NIES2864@NIES-2865@NIES2865@NIES-2866@NIES2866@NIES-1414@NIES1414@NIES-1417@NIES1417@NIES-2867@NIES2867@NIES-935@NIES935
2532@Akao, S., Hosoi, Y., Fujiwara, T.@Utilization of water chestnut for reclamation of water environment and control of cyanobacterial blooms.@Environ. Sci. Pollut. Res.,@21,@2249-2255.@2014@@Nitrogen; Phosphorus; Phenolic compounds; Potassium; Trapa natans@NIES-87@NIES87
2533@Nakai, S., Inoue, Y., Hosomi, M., Murakami, A.@Concurrently inhibitory and allelopathic effects of allelochemicals secreted by Myriophyllum spicatum on growth of blue-green algae.@J. Jpn. Soc. Wat. Environ.,@21,@663-669 (in Japanese with English summary).@1998@@allelopathy; algal growth; inhibition; polyphenol; concurrent action; autoxidation@NIES-87@NIES87
2534@Kuramoto, T., Iwamoto, K., Izumi, M., Kirihata, M., Yoshizako, F.@Asymmetric reduction of ethyl 2-methyl 3-oxobutanoate by Chlorella.@Biosci. Biotechnol. Biochem.,@63,@598-601.@1999@@Chlorella; asymmetric reduction; ethyl 2-methyl 3-oxobutanoate; (2S, 3S)-ethyl 2-methyl 3-hydroxybutanoate; (2S, 3R)-ethyl 2-methyl 3-hydroxybutanoate@NIES-226@NIES226@NIES-227@NIES227
2535@Imoto, Y., Kuroiwa, H., Yoshida, Y., Ohnuma, M., Fujiwara, T., Yoshida, M., Nishida, K., Yagisawa, F., Hirooka, S., Miyagishima, S.Y., Misumi, O., Kawano, S., Kuroiwa, T.@Single-membrane-bound peroxisome division revealed by isolation of dynamin-based machinery.@Proc. Nati. Acad. Sci. U. S. A.,@110,@9583-9588.@2013@@@NIES-3377@NIES3377
2536@Worden, A. Z., Allen, A. E.@The voyage of the microbial eukaryote.@Curr. Opin. Microbiol.,@13,@652-660.@2010@@@NIES-2672@NIES2672
2537@Nemjová, K., Neustupa, J., Šťastný, J., Škaloud, P., Veselá, J.@Species concept and morphological differentiation of strains traditionally assigned to Micrasterias truncata.@Phycol. Res.,@59,@208-220.@2011@@cryptic diversity; Desmidiales; geometric morphometrics Micrasterias truncata; small subunit rDNA; species concept; trnG^UCC intron@NIES-783@NIES783@NIES-784@NIES784
2538@Zhang, X., Song, L., Zhang, P., He, J., Liu, Y., Matsuura, H., Watanabe, M. M.@Grazing on toxic cyanobacterial blooms by tadpoles of edible frong Rana grylio.@Phycol. Res.,@60,@20-26.@2012@@blue-green algae, cyanobacterial bloom; grazing; microcystin; Microcystis; pond; tadpole; trophic relationship@NIES-90@NIES90
2539@Nakajima, T., Takahashi, M.@A photo-bioreactor using algal phototaxis for solids-liquid separation.@Water Res., @25,@1243-1247.@1991@@wastewater treatment; microalgae; Euglena gracilis; phototaxis; solids-liquid separation; bioreactor; photo-clarifier@NIES-48@NIES48
2540@Tatarazako, N., Yamamoto, K., Iwasaki, K.@Subacute toxicity of wood preservatives, DDAC and BAAC, in several aquatic organisms.@J. Health Sci.,@48,@359-365.@2002@@biological test; wood preservative; chronic toxicity; daphnia; green algae; fish@NIES-35@NIES35
2541@Nakayama, T., Marin, B., Kranz, H. D., Surek, B., Huss, V. A. R., Inouye, I., Melkonian, M.@The basal position of scaly green flagellates among the green algae (Chlorophyta) is revealed by analyses of nuclear-encoded SSU rRNA sequences.@Protist,@149,@367-380.@1998@@@NIES-221@NIES221@NIES-251@NIES251
2542@Shimizu, K., Sano, T., Kubota, R., Kobayashi, N., Tahara, M., Obama, T., Sugimoto, N., Nishimura, T., Ikarashi, Y.@Effects of the amino acid constituents of microcystin variants on cytotoxicity to primary cultured rat hepatocytes.@Toxins,@6,@168-179.@2014@@microcystin; variants; cytotoxicity; primary cultured rat hepatocytes; environmental water@NIES-595@NIES595@NIES-928@NIES928@NIES-610@NIES610@NIES-90@NIES90
2543@Takahashi, Y., Yoshida, M., Inouye, I., Watanabe, M. M.@Diplophrys mutabilis sp. nov., a new member of Labyrinthulomycetes from freshwater habitats.@Protist,@165,@50-65.@2014@@Amphitremida; Diplophrys mutabilis; lipid body; phylogeny; ultrastructure@NIES-3361@NIES3361
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2545@Watanabe, M. F., Tsuji, K., Watanabe, Y., Harada, K-I., Suzuki, M.@Release of heptapeptide toxin (microcystin) during the decomposition process of Microcystis aeruginosa.@Natural Toxins,@1,@48-53.@1999@@Blue-green algae; Cyanobacteria; Heterotrophic bacteria; Aerobic decomposition@NIES-3349@NIES3349
2546@Six, C., Finkel, Z. V., Rodriguez, F., Marie, D., Partensky, F., Campbell, D. A.@Contrasting photoacclimation costs in ectotypes of the marine eukayotic picoplankter Ostreococcus.@Limnol. Oceanogr.,@53,@255-265.@2008@@@NIES-2674@NIES2674
2547@Kaeriyama, H., Katsuki, E., Otsubo, M., Yamada, K., Ichimi, K., Tada, K., Harrison, P. J.@Effects of temperature and irradiance on growth of strains belonging to seven Skeletonema species isolated from Dokai Bay, southern Japan.@Eur. J. Phycol.,@46,@113-124.@2011@@Dokai Bay; irradiance; physiology; Skeletonema species; specific growth rate; temperature@NIES-2844@NIES2844@NIES-2841@NIES2841@NIES-2843@NIES2843@NIES-2839@NIES2839@NIES-2837@NIES2837@NIES-2838@NIES2838@NIES-2842@NIES2842
2548@Sakaguchi, M., Murakami, H., Suzaki, T.@Involvement of a 40-kDa glycoprotein in food recognition, prey capture, and induction of phagocytosis in the protozoon Actinophrys sol.@Protist,@152,@33-41.@2001@@@NIES-3374@NIES3374@NIES-2497@NIES2497
2549@Kinoshita, E., Suzaki, T., Sugiyama, M., Shigenaka, Y.@Ultrastructure and rapid axopodial contraction of a heliozoan, Raphidiophyrys contractilis sp. nov.@J. Eucaryot. Microbiol.,@42,@283-288.@1995@@Contraction; Heliozoa; microtubule pattern; new species; Raphidiophyrys; silicic scale; X-ray microanalysis@NIES-3374@NIES3374@NIES-2498@NIES2498
2550@Sakaguchi, M., Suzuki, T., Khan, S. M. M. K. Hausmann, K.@Food capture by kinetocysts in the heliozoon Raphidiophrys contractilis.@Eur. J. Protistol.,@37,@453-458.@2002@@Exocytosis; Extrusome; Heliozoa; Kinetocyst@NIES-3374@NIES3374@NIES-2498@NIES2498
2551@Fukuda, S., Iwamoto, K., Atsumi, M., Yokoyama, A., Nakayama, T., Ishida, K-I., Inouye, I., Shiraiwa, Y.@Global searches for microalgae and aquatic plants that can eliminate radioactive cesium, iodine and strontium from the radio-polluted aquatic environment: a bioremediation strategy.@J. Plant Res.,@127,@79-89.@2014@@Algal phytoremediation; Bioaccumulation; Radiopollution; Radionuclide elimination; Radioactive cesium; The Fukushima 1 Nuclear Power Plant accident@NIES-1003@NIES1003@NIES-1862@NIES1862@NIES-233@NIES233@NIES-1259@NIES1259@NIES-329@NIES329@NIES-405@NIES405@NIES-503@NIES503@NIES-529@NIES529@NIES-531@NIES531@NIES-538@NIES538@NIES-587@NIES587@NIES-805@NIES805@NIES-1012@NIES1012@NIES-1017@NIES1017@NIES-1382@NIES1382@NIES-1435@NIES1435@NIES-1439@NIES1439@NIES-1440@NIES1440@NIES-1442@NIES1442@NIES-1458@NIES1458@NIES-1728@NIES1728@NIES-1833@NIES1833@NIES-1840@NIES1840@NIES-1865@NIES1865@NIES-1956@NIES1956@NIES-2147@NIES2147@NIES-2150@NIES2150@NIES-2377@NIES2377@NIES-2437@NIES2437@NIES-2854@NIES2854@NIES-2855@NIES2855@NIES-2856@NIES2856@NIES-2858@NIES2858@NIES-2859@NIES2859@NIES-1326@NIES1326@NIES-1377@NIES1377@NIES-2131@NIES2131@NIES-1388@NIES1388@NIES-1441@NIES1441@NIES-1826@NIES1826@NIES-1831@NIES1831@NIES-678@NIES678@NIES-727@NIES727@NIES-440@NIES440@NIES-859@NIES859@NIES-597@NIES597@NIES-931@NIES931@NIES-1045@NIES1045@NIES-553@NIES553@NIES-2144@NIES2144@NIES-548@NIES548@NIES-203@NIES203@NIES-2860@NIES2860@NIES-2176@NIES2176@NIES-333@NIES333@NIES-843@NIES843@NIES-2175@NIES2175@NIES-1031@NIES1031@NIES-2412@NIES2412@NIES-1846@NIES1846@NIES-155@NIES155@NIES-246@NIES246@NIES-160@NIES160@NIES-36@NIES36@NIES-417@NIES417@NIES-391@NIES391@NIES-1331@NIES1331@NIES-1411@NIES1411@NIES-1044@NIES1044@NIES-1015@NIES1015@NIES-995@NIES995@NIES-2268@NIES2268@NIES-24@NIES24@NIES-2146@NIES2146@NIES-2325@NIES2325@NIES-487@NIES487@NIES-2352@NIES2352@NIES-2341@NIES2341@NIES-2185@NIES2185@NIES-71@NIES71
2552@Sakaguchi, M., Suzuki, T.@Monoxenic culture of the heliozoon Actinophrys sol.@Eur. J. Protistol.,@35,@1-10.@1999@@Actinophrys sol; Antibiotic; Heliozoa; Monoxenic Culture@NIES-3374@NIES3374@NIES-2497@NIES2497
2553@Song, C., Suzaki, T.@Improved preservation of organelies in Paramecium bursaria by freeze-substitution with glutaraldehyde and osmium tetroxide.@J. Electr. Microsc. Technol. Med. Biol.,@27,@1-8.@2013@@Paramecium bursaria; endosymbiosis; cryofixation; ultrastructural preservation; freeze-substitution@NIES-3374@NIES3374
2554@Inaba, N., Watanabe, T., Sakami, T., Nishi, H., Tahara, Y., Imai, I.@Temporal and spatial distribution of algicidal and growth-inhibiting bacteria in the coastal sea of southwest Japan.@J. Plankton Res.,@36,@388-397.@2014@@algicidal bacteria; growth-inhibiting bacteria; particle-associated bacteria; free-living bacteria; harmful algal blooms@NIES-1@NIES1
2555@Imai, I., Nishigaki, T., Okamoto, S., Yamamoto, K., Takeuchi, T., Yoshinaga, I., Hirata, H.@Distributions of the algicidal microorganisms against the harmful phytoflagellates in Tanabe Bay (Wakayama Prefecture) and Osaka Bay, Japan.@Bull. Fish. Sci. Hokkaido Univ.,@63,@23-31 (in Japanese with English summary).@2013@@Red tide; Prevention; Killer microorganisms; Algicidal bacteria; Ulva pertusa; Seaweed beds; Karenia mikimotoi; Chattonella; Heterosigma@NIES-1@NIES1
2556@Sakaguchi, M., Suzaki, T., Shigenaka, Y.@Statistical analysis of spatial patterns of the heliozoan Actinophrys sol.@Protoplasma,@196,@117-122.@1997@@Heliozoa; Spatial point pattern; Cell distribution; Interaction potential; Likelihood analysis@NIES-2497@NIES2497
2557@Sakaguchi, M., Hausmann, K., Suzaki, T.@Food capture and adhesion by the heliozoon Actinophrys sol.@Protoplasma,@203,@130-137.@1998@@Actinophrys sol; Exocytosis; Extrusomes; Feeding behavior; Heliozoa; Prey adhesion @NIES-2497@NIES2497
2558@Kinoshita, E., Suzaki, T., Shigenaka, Y.@The ultrastructure of contractile tubules in the heliozoan Actinophrys sol and their possible involvement in rapid axopodial contraction.@J. Eucaryot. Microbiol.,@48,@519-526.@2001@@Axopodium; Ca²⁺-contraction; colchicine; electron microscopy@NIES-2497@NIES2497
2559@Arikawa, M., Saito, A., Omura, G., Khan, S. M. M. K., Kinoshita, E., Suzaki, T.@Ca²⁺-dependent cytoplasmic contractility of the heliozoan Actinophrys sol.@Eur. J. Protistol.,@38,@365-372.@2002@@Cell model; Permeabilization; Contractile tubules; Heliozoa; Protozoa@NIES-2497@NIES2497
2560@Arikawa, M., Saito, A., Omura, G., Khan, S. M. M. K., Suetomo, Y., Kakuta, S., Suzaki, T.@Ca²⁺-dependent nuclear contraction of heliozoan Actinophrys sol.@Cell Calcium,@38,@447-455.@2005@@@NIES-2497@NIES2497
2561@Arikawa, M., Saito, A., Omura, G., Khan, S. M. M. K., Suetomo, Y., Kakuta, S., Suzaki, T.@Ca²⁺-dependent in vivo contractility of a precipitate isolated from an extract of the heliozoan Actinophrys sol.@Cell Motil. Cytoskeleton,@63,@57-65.@2006@@contraction; precipitate; heliozoan; protozoa@NIES-2497@NIES2497
2562@Kakuta, S., Suzaki, T.@Ca²⁺- and glycoconjugates-dependent prey capture in the heliozoan Actinophrys sol.@Eur. J. Protistol.,@44,@163-167.@2007@@calium ion influx; Con A; exocytosis; extrusome; glycoprotein; secretory granule@NIES-2497@NIES2497
2563@Khan, S. M. M. K., Arikawa, M., Suzaki, T.@Toxic effect of heavy metal ions on the axopodia of the heliozoon Raphidiophrys contractilis.@Jpn. J. Protozool.,@38,@44-45.@2005@@@NIES-2498@NIES2498
2564@Khan, S. M. M. K., Yoshimura, C., Arikawa, M., Omura, G., Nishiyama, S., Suetomo, Y., Kakuta, S., Suzaki, T.@Axopodial degradation in the heliozoon Raphidiophrys contractilis: a novel bioassay system for detecting heavy metal toxicity in an aquatic environment.@Environ. Sci.,@13,@193-200.@2006@@@NIES-2498@NIES2498
2565@Khan, S. M. M. K., Arikawa, M., Omura, G., Suetomo, Y., Kakuta, S., Suzaki, T.@Axopodial contraction in the heliozoon Raphidiophrys contractilis requires extracellular Ca²⁺.@Zool. Sci.,@20,@1367-1372.@2003@@contraction; microtubules; contractile tubules; heliozoa; calcium@NIES-2498@NIES2498
2566@Faria, D. G., Kato, A., de la Peña, M., Suda, S.@Taxonomy and phylogeny of Nephroselmis clavistella sp. nov. (Nephroselmidophyceae, Chlorophyta).@J. Phycol.,@6,@1388-1396.@2011@@molecular phylogeny; morphology; Nephroselmidophyceae; Nephroselmis clavistella sp. nov.; scale morphology; taxonomy; ultrastructure@NIES-2867@NIES2867
2567@Suda, S.@Isolation, cultivation and phylogenetic studies of microalgae, particularly prasinophytes from coastal waters of the Nansei Islands, Japan.@IFO Res. Commun.,@22,@53-62 (in Japanese with English summary).@2008@@microalgae; picoeukaryotic plankton; prasinophytes; Ryukyu Islands; zooxanthellae@NIES-2531@NIES2531@NIES-2528@NIES2528@NIES-2527@NIES2527@NIES-2529@NIES2529@NIES-2530@NIES2530
2568@Fujiwara, T., Kuroiwa, H., Yagisawa, F., Ohnuma, M., Yoshida, Y., Yoshida, M., Nishida, K., Misumi, O., Watanabe, S., Tanaka, K., Kuroiwa, T.@The coiled-coil protein VIG1 is essential for tethering vacuoles to mitochondria during vacuole inheritance of Cyanidioschyzon merolae.@Plant Cell,@22,@772-781.@2010@@@NIES-3377@NIES3377
2569@Miyagishima, S., Takahara, M., Kuroiwa, T.@Novel filaments 5 nm diameter constitute the cytosolic ring of the plastid division apparatus.@Plant Cell,@13,@707-721.@2001a@@@NIES-3377@NIES3377
2570@Miyagishima, S., Takahara, M., Mori, T., Kuroiwa, H., Higashiyama, T., Kuroiwa, T.@Plastid division is driven by a complex mechanism that involves differential transition of the bacterial and eukaryotic division rings.@Plant Cell,@13,@2257-2268.@2001b@@@NIES-3377@NIES3377
2571@Miyaghishim, S., Nishida, K., Mori, T., Matsuzaki, M., Higashiyama, T., Kuroiwa, H., Kuroiwa, T.@A plant-specific dynamin-related protein forms a ring at the chloroplast division site.@Plant Cell,@15,@655-665.@2003@@@NIES-3377@NIES3377
2572@Kobayashi, T. Takahara, M., Miyagishima, S, Kuroiwa, H., Sasaki, N., Ohta, N., Kuroiwa, T.@Detection and localization of a chloroplast-encoded HU-like protein that may organize chloroplast nucleoids.@Plant Cell,@14,@1579-1589.@2002@@@NIES-3377@NIES3377
2573@Nishida, K., Takahara M., Miyagishima S., Kuroiwa H., Matsuzaki M., Kuroiwa, T.@Dynamic recruitment of dynamin for final mitochondrial severance in a red alga.@Proc. Nati. Acad. Sci. U. S. A.,@100,@2146-2151.@2003@@@NIES-3377@NIES3377
2574@Maruyama, S., Misumi, O., Ishii, Y., Asakawa, S., Shimizu, A., Sasaki, T., Matsuzaki, M., Shin-I, T., Nozaki, H., Kohara, Y., Shimizu, N., Kuroiwa, T.@The minimal eukaryotic ribosomal DNA units in the primitive red algae Cyanidioschyzon merolae.@DNA Res.,@11,@83-91.@2004@@BAC library; Genome organization; Nucleolus@NIES-3377@NIES3377
2575@Yamano, T., Iguchi, H. Fukuzawa, H.@Rapid transformation of Chlamydomonas reinhardtii without cell-wall removal.@J. Biosci. Bioeng.,@115,@691-694.@2013@@Chlamydomonas reinhardtii; Electroporation; Square electric pulse; Transformation@NIES-2235@NIES2235
2576@Watanabe, S., Tsujimura, S., Misono, T., Nakamura, S., Inoue, H.@Hemiflagellochloris kazakhstanica gen. et sp. nov.: a new coccoid green alga with flagella of considerably unequal lengths from a saline irrigation land in Kazakhstan (Chlorophyceae, Chlorophyta).@J. Phycol.,@12,@696-706.@2006@@Chlorophyceae; flagella; green algae; Hemiflagellochloris; Kazakhstan; unequal lengths@NIES-1722@NIES1722
2577@Yabuki, A., Nakayama, T., Yubuki, N., Hashimoto, T., Ishida, K-I. Inagaki, Y. @Tsukubamonas globosa n. gen., n. sp., a novel excavate flagellate possibly holding a key for the early evolution in "Discoba".@J. Eucaryot. Microbiol.,@58,@319-331.@2011@@Flagellar apparatus; heteroloboseans; jakobids; multigene phylogeny; taxonomy; ultrastructure@NIES-1390@NIES1390
2578@Suda, S., Bhuiyan, M. A. H., Faria, D. G.@Genetic diversity of Pyramimonas from Ryukyu Archipelago, Japan (Chlorophyceae, Pyramimonadales).@J. Mar. Sci. Tech.,@21,@285-296.@2013@@Pyramimonas; nuclear SSU rDNA; genetic diversity; Ryukyu Archipelago@NIES-3392@NIES3392@NIES-3393@NIES3393@NIES-3394@NIES3394@NIES-3396@NIES3396@NIES-3397@NIES3397@NIES-3398@NIES3398@NIES-3399@NIES3399@NIES-3401@NIES3401@NIES-3403@NIES3403@NIES-3405@NIES3405@NIES-3407@NIES3407@NIES-3408@NIES3408@NIES-3411@NIES3411@NIES-3413@NIES3413@NIES-3414@NIES3414@NIES-3416@NIES3416@NIES-3417@NIES3417@NIES-3418@NIES3418@NIES-221@NIES221@NIES-255@NIES255@NIES-251@NIES251
2579@Sakai, M., Hosoda, A., Kanazawa, S.@Isolation and characterization of two cyanobacteria-lytic bacterial strains from the submerged paddy soil.@J. soci. soil. microbiol.,@57,@21-28 (in Japanese with English summary).@2003@@Cyanobacteria; Lytic bacteria; Paddy field; Anabaena@NIES-37@NIES37@NIES-19@NIES19@NIES-23@NIES23
2580@Takeshita, T., Ota, S., Yamazaki, T., Hirata, A., Zachleder, V., Kawano, S.@Starch and lipid accumulation in eight strains of six Chlorella species under comparatively high light intensity and aeration culture conditions.@Bioresour. Technol.,@158,@127-134.@2014@@Accumulation shift; Lipid; Chlorella; Starch; Strong light@NIES-2169@NIES2169@NIES-2179@NIES2179@NIES-2159@NIES2159@NIES-2152@NIES2152@NIES-2170@NIES2170@NIES-2151@NIES2151
2581@Cao, H., Shimura, Y., Kawachi, M., Yin, Y.@Draft genome sequence of the toxic bloom-forming cyanobacterium Aphanizomenon flos-aquae NIES-81.@GenomeA,@2,@e00044-14 (article ID).@2014@@@NIES-81@NIES81
2582@Mogi, K., Fujii, T.@Evaluation of ethanol toxicity to oil producing algae using a microfluidic device.@Proceedings of the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Okinawa, Japan 2012,@@pp. 857-859.@2012@@Microalgae; Botryococcus braunii; Toxicity assay; Vernier wall@NIES-836@NIES836
2583@Ogawa, Y., Kimura, S., Saito, Y., Wada, M.@Infrared study on deuteration of highly-crystalline chitin.@Carbohydr. Polym.,@90,@650-657.@2012@@α-Chitin; β-Chitin; Deuteration; FT-IR spectroscopy; X-ray diffraction@NIES-1396@NIES1396
2584@Hagino, K., Bendif, E. M., Young, J. R. Kogame, K., Probert, I., Takano, Y., Horiguchi, T., de Vardas, C., Okada, H.@New evidence for morphological and genetic variation in the cosmopolitan coccolithophore Emiliania huxleyi (Prymnesiophyceae) from the COX1b-ATP4 genes.@J. Phycol.,@47,@1164-1176.@2011@@biogeography; coccolithophore; Emiliania huxleyi; mitochondrial DNA; morphotype@NIES-1311@NIES1311@NIES-1312@NIES1312@NIES-1313@NIES1313@NIES-1314@NIES1314@NIES-838@NIES838@NIES-1000@NIES1000@NIES-837@NIES837
2585@Bendif, E. M., Probert, I., Carmichael, M., Romac, S., Hagino, K., de Vardas, C.@Genetic delineation between and within the widespread coccolithophore morpho-species Emiliania huzleyi and Gephyrocapsa.@J. Phycol.,@50,@140-148.@2014@@coccolithophore; DNA barcoding; Emiliania huxleyi; Gephyrocapsa oceanica; phylogeny; species complex@NIES-2697@NIES2697@NIES-1000@NIES1000
2586@Grewe, C., Griehl, C.@Time- and media-dependent secondary carotenoid accumulation in Haematococcus pluvialis.@Biotechnol. J.,@3,@1232-1244.@2008@@Astaxanthin; Carotenoid biosynthesis; ; Haematococcus pluvialis; LC-MS; Media@NIES-144@NIES144
2587@Nagai, T.@河川付着藻類を用いた農薬の毒性試験マニュアル Ver. 1.0@In Research Project for Environmental Risk Assessment of Nutrients and Organochemicals, NIAES,@@52 pp (in Japanese).@2014@@@NIES-512@NIES512@NIES-797@NIES797@NIES-487@NIES487@NIES-71@NIES71
2588@Nozaki, H., Yamada, K. T., Takahashi, F., Matsuzaki, R., Nakada, T.@New "missing link" genus of the colonial volvocine green algae gives insights into the evolution of oogamy.@BMC Evol. Biol.,@14,@37 (article ID).@2014@@@NIES-3384@NIES3384@NIES-3386@NIES3386@NIES-3385@NIES3385@NIES-3387@NIES3387@NIES-3382@NIES3382@NIES-3383@NIES3383@NIES-3388@NIES3388
2589@Nishida, K., Misumi, O., Yagisawa, F., Kuroiwa, H., Nagata, T., Kuroiwa, T.@Triple Immunofluorescent Labeling of FtsZ, Dynamin, and EF-Tu revealed a loose association between the inner and outer membrane mitochondrial division machinery in the red alga Cyanidioschyzon merolae.@J. Histochem. Cytochem.,@52,@843-849.@2004@@FtsZ; dynamin; elongation factor; Tu; mitochondrial division; Cyanidioschyzon merolae; Alexa; triple immunofluorescence@NIES-3377@NIES3377
2590@Misumi, O., Matsuzaki, M., Nozaki, H., Miyagishima, S., Mori, T., Nishida, K., Yagisawa, F., Yoshida, Y., Kuroiwa, H., Kuroiwa, T.@Cyanidioschyzon merolae genome A tool for facilitating comparable studies on organelle biogenesis in photosynthetic eukaryotes.@Plant Physiol.,@137,@567-585.@2005@@@NIES-3377@NIES3377
2591@Kusumi, T., Takata, Y., Itatsu, Y., Zha, J.@Whole effluent toxicity assessment of industrial effluents in Toyama, Japan with a battery of short-term chronic bioassays.@J. Water Environ. Technol.,@12,@55-63.@2014@@aqquatic organism; ecotoxic effect; industrial effluent; whole effluent toxicity (WET)@NIES-35@NIES35
2592@Fukuda, S., Suzuki, Y., Shiraiwa, Y.@Difference in physiological responses of growth, photosynthesis and calcification of the coccolithophore Emiliania huxleyi to acidification by acid and CO₂ enrichment.@Photosynth. Res.,@121,@299-309.@2014@@Acidification; CO₂ enrichment; Calcification; Emiliania huxleyi; pH effect; Photosynthesis@NIES-837@NIES837
2593@Wang, L., Yamano, T., Kajikawa, M., Hirono, M., Fukuzawa, H.@Isolation and characterization of novel high-CO₂-requiring mutants of Chlamydomonas reinhardtii.@Photosynth. Res.,@121,@175-184.@2014@@Chlamydomonas reinhardtii; Carbon-concentrating mechanism; CO₂-signal transduction; High-CO₂-requiring mutants@NIES-2235@NIES2235
2594@González, M. A., Coleman, A. W., Gómez, P. I., Montoya, R.@Phylogenetic relationship among various strains of Dunaliella (Chlorophyceae) based on nuclear ITS rDNA sequences.@J. Phycol.,@37,@604-611.@2001@@Dunaliella; internal transcribed spacer; phylogenetics; rDNA; sequencing; strains; taxonomy@NIES-3572@NIES3572@NIES-4107@NIES4107
2595@Sasaki, K., Marquez, F. J., Nishio, N., Nagai, S.@Promotive effect of 5-aminolevulinic acid on the growth and photosynthesis of Spirulina platensis.@J. Ferment. Bioeng.,@79,@453-457.@1995@@5-aminolevulinic acid; Spirulina platensis; phycocyanin; chlorophyll@NIES-39@NIES39
2596@Rho, M.-C., Yasuda, K., Matsunaga, K., Ohizumi, Y.@A monogalactopyranosyl acylglycerol from Oltmannsiellopsis unicellularis (NIES-359).@Phytochemistry,@44,@1507-1509.@1997@@Oltmannsiellopsis unicellularis; Chlorophyceae; marine alga; glycolipid; monogalactopyranosyl acylglycerol; platelet aggregation@NIES-359@NIES359
2597@Yamaguchi, H., Arisaka, H., Otsuka, N., Tomaru, Y.@Utilization of phosphate diesters by phosphodiesterase-producing marine diatoms.@J. Plankton Res.,@36,@281-285.@2014@@marine diatoms; phosphate diester; phosphodiesterase; phosphorus@NIES-6@NIES6
2598@Imamura, S., Kanesaki, Y., Ohnuma, M., Inouye, T., Sekine, Y., Fujiwara, T., Kuroiwa, T., Tanaka, K.@R2R3-type MYB transcription factor, CmMYB1, is a central nitrogen assimilation regulator in Cyanidioschyzon merolae.@Proc. Nati. Acad. Sci. U. S. A.,@106,@12548-12553.@2009@@@NIES-3377@NIES3377
2599@Fujiwara, T., Misumi, O., Tashiro, K., Yoshida, Y., Nishida, K., Yagisawa, F., Imamura, S., Yoshida, M., Mori, T., Tanaka, K., Kuroiwa, T.@Peirodic gene expression patterns duiring the highly synchronized cell nucleus and organelle division cycles in the unicellular red alga Cyanidioschyzon merolae.@DNA Res.,@16,@59-72.@2009@@cell cycle; microarray; mitochondria-plastid division genes; organelle division genes; Cyanidioschyzon merolae@NIES-3377@NIES3377
2600@Kobayashi, Y., Kanesaki, Y., Tanaka, A., Kuroiwa, H., Kuroiwa, T., Tanaka, K.@Tetrapyrrole signal as a cell-cycle coordinator from organelle to nuclear DNA replication in plant cells.@Proc. Nati. Acad. Sci. U. S. A.,@106,@803-807.@2009@@@NIES-3377@NIES3377
2601@Nishida, K., Yagisawa, F., Kuroiwa, H., Yoshida, Y., Kuroiwa, T.@WD40 protein Mda1 is purified with Dnm1 and forms a dividing ring for mitochondria before Dnm1 in Cyanidioschyzon merolae.@Proc. Nati. Acad. Sci. U. S. A.,@104,@4736-4741.@2007@@@NIES-3377@NIES3377
2602@Nishida, K., Yagisawa, F., Kuroiwa, H., Nagata, T., Kuroiwa, T.@Isolated chloroplast division machinery can actively constrict after stretching.@Science,@313,@1435-1438.@2006@@@NIES-3377@NIES3377
2603@Nishida, K., Yagisawa, F., Kuroiwa, H., Nagata, T., Kuroiwa, T.@Cell cycle-regulated, microtubule-independent organelle division in Cyanidioschyzon merolae.@Mol. Biol. Cell,@16,@2493-2502.@2005@@@NIES-3377@NIES3377
2604@Kuroiwa, T., Kuroiwa, H., Sakai, A., Takahashi, H., Toda, K., Itoh, R.@The division apparatus of plastids and mitochondria.@Int. Rev. Cytol.,@181,@1-41.@1998@@Cytokinesis; Organellokinesis; Organelle division; Mitochondrial division; Plastid division; FtsZ; Contractile ring; Cell division@NIES-3377@NIES3377
2605@Kuroiwa, T.@The primitive red algae Cyanidium caldarium and Cyanidioschyzon merolae as model system for investigating the dividing apparatus of mitochondria and plastids.@Bioessays,@20,@344-354.@1998@@@NIES-3377@NIES3377
2606@Maruyama, S., Misumi, O., Ishii, Y., Asakawa, S., Shimizu, A., Sasaki, T., Matsuzaki, M., Shin-i, T., Nozaki, H., Kohara, Y., Shimizu, N., Kuroiwa, T.@Centromere dynamics in the primitive red alga Cyanidioschyzon merolae.@Plant J.,@49,@1122-1129.@2007@@centromere; CENH3; chromosome segregation; Cyanidioschyzon merolae@NIES-3377@NIES3377
2607@Yagisawa, F., Nishida, K., Yoshida, M., Ohnuma, N., Shimada, T., Fujiwara, T., Yoshida, Y., Misumi, O., Kuroiwa, H., Kuroiwa, T.@Identification of novel proteins in isolated polyphosphate vacuoles in the primitive red alga Cyanidioschyzon merolae.@Plant J.,@60,@882-893.@2009@@polyphosphate; vacuole; primitive; Cyanidioschyzon; isolation; mass spectrometry (MS)@NIES-3377@NIES3377
2608@Yoshida, Y., Kuroiwa, H., Hirooka, S., Fujiwara, T., Ohnuma, M., Yoshida, M., Misumi, O., Kawano, S., Kuroiwa, T.@The bacterial ZapA-like protein ZED is required for mitochondrial division.@Curr. Biol.,@19,@1491-1497.@2009@@@NIES-3377@NIES3377
2609@Minoda, A., Sakagami, R., Yagisawa, F., Kuroiwa, T., Tanaka, K.@Improvement of culture conditions and evidence for nuclear transformation by homologous recombination in a red alga, Cyanidioschyzon merolae 10D.@Plant Cell Physiol.,@45,@667-671.@2004@Medium (M-Allen)@Cultivation; — Cyanidioschyzon merolae; 5-FOA resistance; Homologous recombination; Red algae; Transformation@NIES-3377@NIES3377
2610@Ohnuma, M., Yokoyama, T., Inouye, T., Sekine, Y., Tanaka, K.@Polyethylene glycol (PEG)-mediated transient gene expression in a Red Alga, Cyanidioschyzon merolae 10D.@Plant Cell Physiol.,@49,@117-120.@2008@@Cyanidioschyzon merolae; Hemagglutinin; Polyethylene glycol; Transformation; Transient expression system@NIES-3377@NIES3377
2611@Ohnuma, M., Misumi, O., Fujiwara, T., Watanabe, S., Tanaka, K., Kuroiwa, T.@Transient gene suppression in a red alga, Cyanidioschyzon merolae 10D.@Protoplasma,@236,@107-112.@2009@@Antisense suppression; Cyanidioschyzon merolae; Catalase; GFP; Transformation@NIES-3377@NIES3377
2612@Terashita, M., Maruyama, S., Tanaka, K.@Cytoplasmic localization of the single glutamine synthetase in a unicellular red alga, Cyanidioschyzon merolae 10D.@Biosci. Biotechnol. Biochem.,@70,@2313-2315.@2006@@Cyanidioschyzon merolae; glutamine synthetase; localization; nitrogen assimilation; red alga@NIES-3377@NIES3377
2613@Takahara, M., Takahashi, H., Matsunaga, S., Miyagishima, S., Takano, H., Sakai, A., Kawano, S., Kuroiwa, T.@A putative mitochondrial ftsZ gene is present in the unicellular primitive red alga Cyanidioschyzon merolae.@Mol. Gen. Genet.,@264,@452-460.@2000@@Cyanidioschyzon merolae; ftsZ; Mitochondrial division; Plastid division; Primitive red alga@NIES-3377@NIES3377
2614@Sato, N., Moriyama, T.@Genomic and biochemical analysis of lipid biosynthesis in the unicellular Rhodophyte Cyanidioschyzon merolae: lack of a plastidic desaturation pathway results in the coupled pathway of galactolipid synthesis.@Eukaryot. Cell,@6,@1006-1017.@2007@@@NIES-3377@NIES3377
2615@Imamura, S., Terashita, M., Ohnuma, M., Maruyama, S., Minoda, A., Weber, A. P. M., Inouye, T., Sekine, Y., Fujita, Y., Omata, T., Tanaka, K.@Nitrate assimilatory genes and their transcriptional regulation in a unicellular red alga Cyanidioschyzon merolae: genetic evidence for nitrite reduction by a sulfite reductase-like enzyme.@Plant Cell Physiol.,@51,@707-717.@2010@@Cyanidioschyzon merolae; Nitrate assimilation; Nitrite reductase; Nitrogen regulation; Red alga; Sulfite reductase@NIES-3377@NIES3377
2616@Minoda, A., Nagasawa, K., Hanaoka, M., Horiuchi, M., Takahashi, H., Tanaka, K.@Microarray profiling of plastid gene expression in a unicellular red alga, Cyanidioschyzon merolae.@Plant Mol. Biol.,@59,@375-385.@2005@@ Cyanidioschyzon merolae; microarray; photosynthesis; plastid; red algae; sigma factor@NIES-3377@NIES3377
2617@Busch, A., Nield, J., Hippler, M.@The composition and structure of photosystem I-associatied antenna from Cyanidioschyzon merolae.@Plant J.,@62,@886-897.@2010@@Cyanidioschyzon merolae; Lhcr; photosystem I; phycobilisomes; proteomics@NIES-3377@NIES3377
2618@Shirabe, T., Ito, K., Yoshimura, E.@Dequenching of Cu(I)-bathocuproinedisulfonate complexes for high-performance liquid chromatographic determination of phytochelatins, heavy-metal-binding peptides produced by the primitive red alga Cyanidioschyzon merolae.@Anal. Chem.,@80,@9360-9362.@2008@@@NIES-3377@NIES3377
2619@Minoda, A., Weber, A. P. M., Tanaka, K., Miyagishima, S.@Nucleus-independent control of the rubisco operon by the plastid-encoded transcription factor Ycf30 in the red alga Cyanidioschyzon merolae.@Plant Physiol.,@154,@1532-1540.@2010@@@NIES-3377@NIES3377
2620@Imamura, S., Hanaoka, M., Tanaka, K.@The plant-specific TFIIB-related protein, pBrp, is a general transcription factor for RNA polymerase I.@EMBO J.,@27,@2317-2327.@2008@@@NIES-3377@NIES3377
2621@Ohta, N., Satao, N., Ueda, K., Kuroiwa, T.@Analysis of a plastid gene cluster reveals a close relationship between Cyanidioschyzon and Cyanidium.@J. Plant Res., @110,@235-245.@1997@@Cyanidioschyzon merolae; Cyanidium caldarium; Plastid genome; Rhodophyta@NIES-3377@NIES3377
2622@Kanesaki, Y., Imamura, S., Minoda, A., Tanaka, K.@External light conditions and internal cell cycle phases coordinate accumulation of chloroplast and mitochondrial transcripts in the red alga Cyanidioschyzon merolae.@DNA Res.,@19,@289-303.@2012@@cell cycle; clustering analysis; Cyanidioschyzon; organelle; transcriptome@NIES-3377@NIES3377
2623@Ohta, N., Sato, N., Kuroiwa, T.@The organellar genomes of Cyanidioschyzon merolae.@In Enigmatic Microorganisms and Life in Extreme Environments, Ed. by Seckbach, J., Kluwer Academic Publishers,@@pp. 139-149.@1999@@@NIES-3377@NIES3377
2624@Kataoka, T., Homma, T., Nakano, S., Hodoki, Y., Ohbayashi, K., Kondo, R.@PCR primers for selective detection of intra-species variations in the bloom-forming cyanobacterium, Microcystis.@Harmful Algae,@23,@46-54.@2013@@Microcystis aeruginosa; Quantitative PCR; 16S-23S rDNA ITS fegion; Selective detection; Intra-species variation@NIES-1070@NIES1070@NIES-111@NIES111@NIES-112@NIES112@NIES-107@NIES107@NIES-44@NIES44@NIES-87@NIES87@NIES-98@NIES98@NIES-102@NIES102@NIES-1062@NIES1062@NIES-604@NIES604@NIES-298@NIES298@NIES-101@NIES101@NIES-103@NIES103@NIES-90@NIES90
2625@Naito, K., Sakai, S., Fujinaga, S., Yoshinaga, I., Tanaka, M.@Evolution of water quality at a tidal flat in the Ariake Sea by Algal Growth Potential test.@J. life. Environ. Sci.,@6,@17-28 (in Japanese with English summary).@2014@@Ariake Sea; AGP test; Nutrient; Iron; Microalgae@NIES-324@NIES324@NIES-1@NIES1
2626@Smith, D. R., Hamaji, T., Olson, B. J., Durand, P. M., Ferris, P., Michod, R. E., Featherston, J., Nozaki, H., Keeling, P. J.@Organelle genome complexity scales positively with organism size in volvocine green algae.@Mol. Biol. Evol.,@30,@793-797.@2013@@Chlamydomonas; Gonium; Pleodorina; Volvox; mitochondrion; chloroplast@NIES-1363@NIES1363
2627@Chong, J., Jackson, C., Kim, J. I., Yoon, H. S., Reyes-Prieto, A.@Molecular markers from different genomic compartments reveal cryptic diversity within glaucophyte species.@Mol. Phylogenet. Evol.,@76,@181-188.@2014@@Glaucophyta; Cyanophora; Glaucocystis; Cryptic species diversity; Archaeplastida@NIES-764@NIES764@NIES-966@NIES966@NIES-1961@NIES1961@NIES-1369@NIES1369@NIES-763@NIES763
2628@Krupnik, T., Kotabová, E., van Bezouwen, L. S., Mazur, R., Garstka, M., Nixon, P. J., Barber, J., Kaňa, R., Boekema, E. J., Kargul, J.@A reaction center-dependent photoprotection mechanism in a highly robust photosystem II from an extremophilic red alga, Cyanidioschyzon merolae.@J. Biol. Chem.,@288,@23529-23542.@2013@@@NIES-1332@NIES1332@NIES-4696@NIES4696
2629@Arakaki, Y., Kawai-Toyooka, H., Hamamura, Y., Higashiyama, T., Noga, A., Hirono, M., Olson, B. J. S. C., Nozaki, H.@The simplest integrated multicellular organism unveiled.@PLoS One, @8,@e81641 (article ID).@2013@@@NIES-571@NIES571
2630@Ninomiya, K., Ogino, C., Kawabata, S., Kitamura, K., Maki, T., Hasegawa, H., Shimizu, N.@Ultrasonic inactivation of Microcystis aeruginosa in the presence of TiO2 particles.@J. Biosci. Bioeng.,@116,@214-218.@2013@@Ultrasaound; Titanium dioxide; Disinfection; Microcystis aeruginosa; Hydroxyl radicals@NIES-44@NIES44
2631@Takeda, F., Nakano, K., Aikawa, Y., Nishimura, O., Shimada, Y., Fukuro, S., Nakazawa, T., Tanaka, H., Hayashi, N., Inamori, Y.@Analysis of impact of allelopathy by submerged macrophytes simulated by ecosystem model on microalgal biomass and community.@J. Jpn. Soc. Wat. Environ.,@15,@15-28 (in Japanese with English summary).@2014@@Allelopathy; Potamogeton pusillus; E cosystem model; M icroalgal community; Cladoceran@NIES-35@NIES35@NIES-87@NIES87
2632@Li, R., Carmichael, W. W., Watanabe, M. M.@Taxonomic re-evaluation of Aphanizomenon flos-aquae NH-5 based on morphology and 16S rRNA gene sequences.@Hydrobiologia,@438,@99-105.@2000@@ Aphanizomenon; Cyanobacteria; 16S rRNA; morphology; sequences; taxonomy@NIES-1728@NIES1728
2633@Marin, B., Melkonian, M.@Mesostigmatophyceae, a new class of streptophyte green algae revealed by SSU rRNA sequence comparisons.@Protist,@150,@399-417.@1999@@@NIES-475@NIES475
2634@Tajima, N., Sato, S., Maruyama, F., Kurokawa, K., Ohta, H., Tabata, S., Sekine, K., Moriyama, T., Sato, N.@Analysis of the complete plastid genome of the unicellular red alga Porphyridium purpureum.@J. Plant Res.,@127,@389-397.@2014@@Genome rearrangement; Plastid genome; Porphyridium purpureum; Rhodophyta; rRNA operon@NIES-2140@NIES2140
2635@Aikawa, S., Joseph, A., Yamada, R., Izumi, Y., Yamagishi, T., Matsuda, F., Kawai, H., Chang, J.-S., Hasunuma, T., Kondo, A.@Direct conversion of Spirulina to ethanol without pretreatment or enzymatic hydrolysis processes.@Energ. Environ. Sci.,@6,@1844-1849.@2013@@@NIES-39@NIES39
2636@Kamata, K., Piao, Z., Suzuki, S., Fujimori, T., Tajiri, W., Nagai, K., Iyoda, T., Yamada, A., Hayakawa, T., Ishiwara, M., Horaguchi, S., Belay, A., Tanaka, T., Takano, K., Hangyo M.@Spirulina-templated metal microcoils with controlled helical structures for THz electromagnetic responses.@Sci Rep,@4,@4919 (article ID).@2014@@@NIES-46@NIES46@NIES-39@NIES39
2637@Kim, C.-J., Hung, Y.-H., Oh, H.-M,@Factors indicating culture status during cultivation of Spirulina (Arthrospira) platensis.@J. Microbiol.,@45,@122-127.@2007@@coil number; culture status; syanobacteria; floating activity; Spirulona platensis@NIES-46@NIES46@NIES-39@NIES39
2638@Matsuzaki, R., Hara, Y., Nozaki, H.@A taxonomic study of snow Chloromonas species (Volvocales, Chlorophyceae) based on light and electron microscopy and molecular analysis of cultured material.@Phycologia,@53,@293–304.@2014@@Chloromonadinia; Chloromonas fukushimae; Chloromonas tenuis; Molecular phylogeny; Morphology; Snow algae; Taxonomy; Ultrastructure@NIES-2380@NIES2380@NIES-3390@NIES3390@NIES-3389@NIES3389@NIES-2379@NIES2379
2639@Oikawa, E. Ishibashi, Y.,@Species specificity of musty odor producing Phormidium tenue in Lake Kamafusa.@Wat. Sci. Tech.,@49,@41-46.@2004@@16S-rDNA sequence; 2-methylisoborneol; musty odor; Phormidium tenue phylogenetic tree@NIES-611@NIES611@NIES-512@NIES512@NIES-73@NIES73@NIES-21@NIES21@NIES-30@NIES30@NIES-41@NIES41@NIES-76@NIES76@NIES-33@NIES33
2640@Kim, B.-H., Oh, H.-M., Lee, Y.-K., Choi, G.-G., Ahn, C.-y., Yoon, B.-D., Kim, H.-S.,@Simple method for RNA preparation from cyanobacteria.@J. Phycol.,@42,@1137-1141.@2006@@bead–phenol–chloroform method; cyanobacteria; RNA extraction; xanthogenate–SDS–phenol method@NIES-230@NIES230@NIES-39@NIES39@NIES-33@NIES33
2641@Hori, K. Maruyama, F., Fujisawa, T., Togashi, T., Yamamoto, N., Seo, M., Sato, S., Yamada, T., Mori, H., Tajima, N., Moriyama, T., Ikeuchi, M., Watanabe, M., Wada, H., Kobayashi, K., Saito, M., Masuda, T., Sasaki-Sekimoto, Y., Mashiguchi, K., Awai, K., Shimojima, M., Masuda, S., Iwai, M., Nobusawa, T., Narise, T., Kondo, S., Saito, H., Sato, R., Murakawa, M., Ihara, Y., Oshima-Yamada, Y., Ohtaka, K., Satoh, M., Sonobe, K., Ishii, M., Ohtani, R., Kanamori-Sato, M., Honoki, R., Miyazaki, D., Mochizuki, H., Umetsu, J., Higashi, K., Shibata, D., Kamiya, Y., Sato, N., Nakamura, Y., Tabata, S., Ida, S., Kurokawa, K., Ohta, H.@Klebsormidium flaccidum genome reveals primary factors for plant terrestrial adaptation.@Nat. Commun.,@5,@3978 (article ID).@2014@@@NIES-2285@NIES2285
2642@Wan, M., Hou, D., Li, Y., Fan, J., Huang, J., Liang, S., Wang, W., Pan, R., Wang, J., Li, S.@The effective photoinduction of Haematococcus pluvialis for accumulating astaxanthin with attached cultivation.@Bioresour. Technol.,@163,@26-32.@2014@@Haematococcus pluvialis; Astaxanthin; Biomass; Attached cultivation; Photoinduction@NIES-144@NIES144
2643@Ogawa, S., Shatari, Y.@Spot-like area of F-actin associated with the migrating nucleus in post-mitotic cells of Closterium moniliferum var. submoniliferum (Zygnematales, Chlorophyta).@Bull. Joetsu univ. Educ.,@23,@705-712.@2004@@Cell division; Closterium; F-actin; microtubule; Nuclear migration; Zygnematales@NIES-182@NIES182
2644@Tamaru, Y., Takani, Y., Yoshida, T., Sakamoto, T.@Crucial role of extracellular polysaccharides in desiccation and freezing tolerance in the terrestrial cyanobacterium Nostoc commune.@Appl. Environ. Microbiol.,@71,@7327-7333.@2005@@@NIES-2538@NIES2538
2645@Mikulic, P., Beardall, J.@Contrasting ecotoxicity effects of zinc on growth and photosynthesis in a neutrophilic alga (Chlamydomonas reinhardtii) and an extremophilic alga (Cyanidium caldarium).@Chemosphere,@112,@402-411.@2014@@Photosynthesis; Algae; Zinc; Extremophile; Neutrophile; Acclimation@NIES-2137@NIES2137
2646@Nakada, T., Tomita, M.@Light microscopy and phylogenetic asalyses of Chlamydomonas species (Volvocales, Chlorophyceae). II. Molecular phylogeny, secondary Microglena opisthopyren, and M. media, comb. nov.@Acta Phytotax. Geobot.,@65,@67-73.@2014@@Chlamydomonas; ITS-2; Microglena; molecular phylogeny; phycology; synonymy@NIES-2743@NIES2743@NIES-2744@NIES2744
2647@Riisberg, I., Edvardsen, B.@Genetic variation in bloom-forming ichthyotoxic Pseudochattonella species (Dictyochophyceae, Heterokonta) using nuclear, mitochondrial and plastid DNA sequence data.@Eur. J. Phycol.,@43,@413-422.@2008@@cox1; Dictyochophyceae; genetic variation; harmful algae; psbA; Pseudochattonella; rbcL; rDNA@NIES-670@NIES670
2648@Fujii, K., Nakashima, H., Hashidzume, Y., Uchiyama, T., Mishiro, K., Kadota, Y.@Potential use of the astaxanthin-producing microalga, Monoraphidium sp. GK12, as a functional aquafeed for prawns.@J. Appl. Phycol.,@22,@363-369.@2010@@Astaxanthin; Vitamin; Unsaturated fatty acid; Microalgae; Monoraphidium; Functional aquafeed@NIES-2267@NIES2267
2649@Fujii, K.@Process integration of supercritical carbon dioxide extraction and acid treatment for astaxanthin extraction from a vegetative microalga.@Food Bioprod. Process.,@90,@762-766.@2012@@Supercritical carbon dioxide; Microalgae; Monoraphidium sp.; Astaxanthin; Chlorophyll@NIES-2267@NIES2267
2650@Fujii, K., Nakajima, H, Anno, Y.@Potential of Monoraphidium sp. GK12 for energy-saving astazanthin production.@J. Chem. Tech. Biotechnol.,@83,@1578-1584.@2008@@astaxanthin; microalgae; Monoraphidium sp.; outdoor cultivation; energy-saving technology@NIES-2267@NIES2267
2651@Fujii, K., Imazato, E., Nakashima, H., Ooi, O., Saeki, A.@Isolation of the non-fastidious microalga with astaxanthin-accumulating property and its potential for application to aquaculture.@Aquaculture, @261,@285-293.@2006@@Astaxanthin; Aquaculture; Microalgae; Monoraphidium@NIES-2267@NIES2267
2652@Sakurai, K., Mori, N., Sato, N.@Detection and characterization of phosphatidylcholine in various strains of the genus Chlamydomonas (Volvocales, Chlorophyceae).@J. Plant Res.,@127,@641-650.@2014@@Chlamydomonas; Delta 5 desaturase; Diacylglyceryl-N,N,N-trimethylhomoserine; Fatty acid; Phosphatidylcholine@NIES-2499@NIES2499@NIES-2242@NIES2242@NIES-2316@NIES2316@NIES-2230@NIES2230@NIES-2219@NIES2219@NIES-2225@NIES2225@NIES-2202@NIES2202@NIES-2462@NIES2462@NIES-2207@NIES2207@NIES-2215@NIES2215@NIES-2212@NIES2212
2653@Issarapayup, K., Powtongsook, S., Pavasant, P.@Economical review of Haematococcus pluvialis culture in flat-panel airlift photobioreactors.@Aquac. Eng.,@44,@65-71.@2011@@Airlift photobioreactor; Microalga; Economical analysis; Bioprocess design@NIES-144@NIES144
2654@Handa, S., Shoda, I., Mizobuchi, A., Nakahara-Tsubota, M., Tsubota, H.@Trentepohlia bosseae var. samoensis (Trentepohliaceae, Ulvophyceae), an aerial alga newly found in Japan.@J. Jpn. Bot.,@89,@59-64 (in Japanese with English summary).@2014@@central pit; green alga: Japan; morphology; new record; Phycopeltis; Printzina; Trentepohlia@NIES-3358@NIES3358@NIES-3359@NIES3359@NIES-3360@NIES3360
2655@Demura, M., Nakayama, T., Kasai, F., Kawachi, M.@Genetic structure of Japanese Chattonella marina (Raphidophyceae) populations revealed using microsatellite markers.@Phycol. Res.,@62,@102-108.@2014@@Chattonella marina var. antiqua; Chattonella marina var. marina; genetic structure; isolation by distance; microsatellite marker; population genetics@NIES-1977@NIES1977@NIES-1981@NIES1981@NIES-1980@NIES1980@NIES-116@NIES116@NIES-1978@NIES1978@NIES-2390@NIES2390@NIES-2509@NIES2509@NIES-2510@NIES2510@NIES-2511@NIES2511@NIES-2514@NIES2514@NIES-2515@NIES2515@NIES-2517@NIES2517@NIES-2@NIES2@NIES-2383@NIES2383@NIES-83@NIES83@NIES-114@NIES114@NIES-2406@NIES2406@NIES-85@NIES85@NIES-113@NIES113@NIES-121@NIES121@NIES-1@NIES1@NIES-3@NIES3@NIES-14@NIES14@NIES-1976@NIES1976@NIES-86@NIES86@NIES-115@NIES115@NIES-118@NIES118@NIES-161@NIES161@NIES-557@NIES557@NIES-1974@NIES1974@NIES-1975@NIES1975@NIES-2391@NIES2391@NIES-2405@NIES2405@NIES-84@NIES84
2656@Nakada, T., Tsuchida, Y., Arakawa, K., Ito, T., Tomita, M.@Hybridization between Japanese and North American Chlamydomonas reinhardtii (Volvocales, Chlorophyceae).@Phycol. Res.,@62,@232-236.@2014@@biogeography; Chlamydomonas reinhardtii; Chlorophyceae; mating population; species@NIES-3378@NIES3378@NIES-2463@NIES2463@NIES-3379@NIES3379@NIES-3380@NIES3380@NIES-2464@NIES2464@NIES-3381@NIES3381
2657@Yamada, K., Yoshikawa, S., Ichinomiya, M., Kuwata, A., Kamiya, M., Ohki, K.@Effects of silicon-limitation on growth and morphology of Triparma laevis NIES-2565 (Parmales, Heterokontophyta).@PLoS One, @9,@e103289 (article ID).@2014@@@NIES-2565@NIES2565
2658@Hori, S., Sekimoto, H., Abe, J.@Properties of cell surface carbohydrates in sexual reproduction of the Closterium peracerosum–strigosum–littorale complex (Zygnematophyceae, Charophyta).@Phycol. Res.,@60,@254-260.@2012@@cell-cell recognition; Closterium; ConcanavalinA; conjugation; lectin; Lycopersicon esculentum lectin; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
2659@Makino, I., Yahagi, Y.@Relationship between growing number of river water quality and cyanobacteria by blue-green in lake.@J. Environ. Safety,@5,@19-25 (in Japanese with English summary).@2014@@sightseeing-related facilities; Microcystis aeruginosa; river water quality; fishing; fishing bait@NIES-1144@NIES1144
2660@Hanschen, E. R., Ferris, P. J., Michod, R. E.@Early evolution of the genetic basis for soma in the Volvocaceae.@Evolution,@68,@2014-2025.@2014@@Gene duplication; germ-soma differentiation; major transitions; multicellularity; regA; Volvox@NIES-2739@NIES2739
2661@Onishi, Y., Mohri, Y., Tuji, A., Ohgi, K., Yamaguchi, A., Imai, I.@The seagrass Zostera marina harbors growth-inhibiting bacteria against the toxic dinoflagellate Alexandrium tamarense.@Fish. Sci.,@80,@353-362.@2014@@Toxic blooms; Alexandrium tamarense; Algicidal bacteria; Seagrass; Zostera marina; Mitigation; Prevention@NIES-1@NIES1
2662@Sevilla, J. B., Nakajima, F., Kasuga, I.@Comparison of aquatic and dietary exposure of heavy metals Cd, Cu, and Zn to benthic ostracod Heterocypris incongruens.@Environ. Toxicol. Chem.,@33,@1624-1630.@2014@@Aqueous exposure; Heavy metal; Dietary exposure; Ostracod; Sediment@NIES-2170@NIES2170
2663@Nakai, S., Asaoka, S., Okuda, T., Nishijima, W.@Growth inhibition of Microcystis aeruginosa by allelopathic compounds originally isolated from Myriophyllum spicatum: temperature and light effects and evidence of possible major mechanisms.@J. Chem. Eng. Japan,@47,@488-493.@2014@@Allelopathy; Cyanobacterium; Light Intensity Effect; Photosystem II Quantum Yield; Temperature Effect@NIES-87@NIES87
2664@Smith, D. R., Jackson, C. J., Reyes-Prieto, A.@Nucleotide substitution analyses of the glaucophyte Cyanophora suggest an ancestrally lower mutation rate in plastid vs mitochondrial DNA for the Archaeplastida.@Mol. Phylogenet. Evol.,@79,@380-384.@2014@@Plastid genome; Cyanelle; Genetic diversity; Organelle genome; Nucleotide substitution@NIES-763@NIES763
2665@Hoshina, R. & Imamura, N.@Eu-Chlorella large subunit rDNA sequences and group I introns in ribosomal DNA of the paramecian symbiotic alga NC64A.@Phycol. Res.,@56,@21-32.@2008@@Chlorella vulgaris; group I intron; intron phylogeny; intron transposition; large subunit ribosomal DNA; NC64A@NIES-227@NIES227
2666@Akatsuka, S., Tsuchikane, Y., Fukumoto, R., Fujii, T., Sekimoto, H.@Physiological characterization of the sex pheromone protoplast-release-inducing protein from the Closterium peracerosum-strigosum-littorale complex (Charophyta).@Phycol. Res.,@54,@116-121.@2006@@Closterium; conjugation; mucilage; protoplast release; sex pheromone; sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
2667@Tsuchikane, Y., Kokubun, Y., Sekimoto, H.@Characterization and molecular cloning of conjugation-regulating sex pheromones in homothallic Closterium.@Plant Cell Physiol.,@51,@1515-1523.@2010@@Closterium; Conjugation; Homothallic; Homothallism; Sex pheromone; Sexual reproduction; Zygospore@NIES-2666@NIES2666
2668@Tsuchikane, Y., Sato, M., Ootaki, T., Kokubun, Y., Nozaki, H., Ito, M., Sekimoto, H.@Sexual prosesses and phylogenetic relationship of a homothallic strain in the Closterium peracerosum-strigosum-littorale complex (Zygnematales, Charophyceae).@J. Phycol.,@46,@278-284.@2010@@Closterium; conjugation; heterothallic; pheromone; sexual reproduction@NIES-2666@NIES2666
2669@Sekimoto, H., Tanabe, Y., Tsuchikane, Y., Shirosaki, H., Fukuda,H., Demura, T., Ito, M.@Gene expression profiling using cDNA microarray analysis of the sexual reproduction stage of the unicellular charophcean alga Closterium peracerosum-strigosum-littorale comples.@Plant Physiol.,@141,@271-279.@2006@@@NIES-67@NIES67@NIES-69@NIES69
2670@Hamada, S., Sekimoto, H., Tanabe, Y., Tsuchikane, Y., Ito, M.@Isolation of myosin XI genes from the Closterium peracerosum-strigosum-littorale complex and analysis of their expression during sexual reproduction.@J. Plant Res.,@119,@105-113.@2006@@Closterium; Cytokinesis; Myosin XI; Real-time PCR; Sexual cell division; Sexual reproduction@NIES-68@NIES68@NIES-67@NIES67@NIES-65@NIES65
2671@Sato, N., Ikemura, E., Uemura, M., Awai, K.@Genomic and biochemical analyses of lipid biosynthesis in Cyanophora paradoxa: limited role of the chloroplast in fatty acid synthesis.@J. Exp. Bot.,@76,@532–545.@2025@@Acetyl-CoA carboxylase; carbon isotope assimilation; chloroplast; comparative genomics; Cyanophora paradoxa; fatty acid synthesis@NIES-547@NIES547
2672@Hoef-Emden, K.@Osmotolerance in the Cryptophyceae: Jacks-of-all-trades in the Chroomonas clade.@Protist,@165,@123-143.@2014@@Chroomonas; contractile vacuole; cryptomonads; floridoside; osmolarity; osmoregulation; osmotolerance; phylogeny@NIES-713@NIES713@NIES-714@NIES714@NIES-1004@NIES1004@NIES-712@NIES712@NIES-708@NIES708
2673@Škaloud, P., Nemjová, K., Veselá, J., Cˇ erná, K., Neustupa,J.@A multilocus phylogeny of the desmid genus Micrasterias (Streptophyta): Evidence for the accelerated rate of morphological evolution in protists.@Mol. Phylogenet. Evol.,@61,@933-943.@2011@@Biogeography; Evolution; Micrasterias; Morphology; Phylogeny; Protists@NIES-774@NIES774@NIES-777@NIES777@NIES-784@NIES784@NIES-152@NIES152
2674@Leikoski, N., Fewer, D. P., Jokela, J., Alakoski, P., Wahlsten, M., Sivonen, K.@Analysis of an inactive cyanobactin biosynthetic gene cluster leads to discovery of new natural products from strains of the genus Microcystis.@PLoS One, @7,@e43002 (article ID).@2012@@@NIES-843@NIES843
2675@Keeling, p. J., Palmer, J. D.@Lateral transfer at the gene and subgenic levels in the evolution of eukaryotic enolase.@Proc. Nati. Acad. Sci. U. S. A.,@98,@10745-10750.@2001@@phylogeny; protein insertions; apicomplexa; recombination@NIES-484@NIES484
2676@Nishimura, Y., Kamikawa, R., Hashimoto, T., Inagaki, Y.@An intronic open reading frame was released from one of group II introns in the mitochondrial genome of the haptophyte Chrysochromulina sp. NIES-1333.@Mobile Genetic Elements,@4,@e29384 (article ID).@2014@@group II intron; mitochondrial genome; intron encoded protein; lateral intron transfer; Chrysochromulina sp.@NIES-1333@NIES1333
2677@Kessenich, C. R., Ruck, E. C., Schurko, A. M., Wickett, N. J., Alverson, A. J.@Transcriptomic insights into the life history of Bolidophytes, the sister lineage to diatoms.@J. Phycol.,@50,@977-983.@2014@@Bolidomonas; diatoms; diplontic; haplodiplontic; life cycle; Parmales; transcriptome@NIES-2682@NIES2682
2678@Su, Y., Wang, J., Shi, M., Niu, X., Yu, X., Gao, L., Zhang, X., Chen, L., Zhang, W.@Metabolomic and network analysis of astaxanthin-producing Haematococcus pluvialis under various stress conditions.@Bioresour. Technol.,@170,@522-529.@2014@@Astaxanthin; Stress; Metabolomics; Metabolic network; Haematococcus pluvialis@NIES-144@NIES144
2679@Fujii, K., Matsunobu, S., Takahashi, Y.@Characterization of the new microalgal strains, Oogamochlamys spp., and their potential for biofuel production.@Algal Res.,@5,@164-170.@2014@@Lipid; Biofuel; Microalgae; Oogamochlamys@NIES-3643@NIES3643@NIES-3644@NIES3644
2680@Miyashita, S., Groombridge, A. S., Fujii, S., Minoda, A., Takatsu, A., Hioki, A., Chiba, K., Inagaki, K.@Highly efficient single-cell analysis of microbial cells by time-resolved inductively coupled plasma mass spectrometry.@J. Anal. At. Spectrom.,@29,@1598-1606.@2014@@@NIES-3377@NIES3377
2681@Schönknecht, G., Chen, W.-H., Ternes, C. M., Barbier, G. G., Shrestha, R. P., Stanke, M., Bräutigam, A., Baker, B. J., Banfield, J. F., Garavito, R. M., Carr, K., Wilkerson, C., Rensing, S. A., Gagneul, D., Dickenson, N. E., Oesterhelt, C., Lercher, M. J., Weber, A. P. M. @Gene transfer from bacteria and archaea facilitated evolution of an extremophilic eukaryote.@Science,@,@1207-1210.@2013@@@NIES-3638@NIES3638
2682@Linka, M., Jamai, A., Weber, A. P. M.@Functional characterization of the plastidic phosphate translocator gene family from the thermo-acidophilic red alga Galdieria sulphuraria reveals specific adaptations of primary carbon partitioning in green plants and red algae.@Plant Physiol.,@148,@1487-1496.@2008@@@NIES-3638@NIES3638
2683@Nogami, R., Nishida, H., Hong, D. D., Wakisaka, M.@Growth promotion of Spirulina by steelmaking slag: application of solubility diagram to understand its mechanism.@AMB Express,@6,@96 (article ID).@2016@@Steelmaking slag; Growth promotion; Spirulina; Solubility diagram; Oxidative stress@NIES-39@NIES39
2684@Nakashima, Y., Egami, Y., Kimura, M., Wakimoto, T.@Metagenomic analysis of the sponge Discodermia reveals the production of the cyanobacterial natural product kasumigamide by ‘Entotheonella’.@PLoS One, @11,@e0164468 (article ID).@2016@@@NIES-87@NIES87
2685@Asai, R., Ootani, K., Nomura, Y., Nakamura, C., Ikebukuro, K., Arikawa, Y., Miyake, J., Karube, I.@PCR-based ribosomal DNA detection technique for microalga (Heterosigma carterae) causing red tide and its application to a biosensor using labeled probe.@Mar. Biotechnol.,@5,@417-423.@2003@@small subunit rDNA; Heterosigma carterae; fluorescence polarization; asymmetric polymerase chain reaction; surface plasmon resonance@NIES-44@NIES44@NIES-1@NIES1
2686@Kuroiwa, Y., Al-Maamari, R. S., Tasaki, M., Okamura, K., Sueyoshi, M., Nakashima, A., Yoshida, E., Suzuki, K.@Spirulina subsalsa var. salina var. nov.: Thermo-halotolerant cyanobacteria accumulating two kinds of compatible solute, originated from the Sultanate of Oman.@J. Environ. Biotechnol.,@14,@43-56.@2014@@Spirulina subsalsa var. salina var. nov.; Halospirulina; halotolerant; glycine betamine; O-α-D-glucopyranosyl-(1→2)-glycerole@NIES-3373@NIES3373
2687@Srivastava, A., Ko,S-R., Ahn, C-Y., Oh, H-M., Ravi, A. K., Asthana, R. K.@Microcystin biosynthesis and mcyA expression in geographically distinct Microcystis strains under different nitrogen, phosphorus, and boron regimes.@Biomed Res. Int.,@2016,@5985987 (article ID).@2016@@@NIES-843@NIES843
2688@Muravenko, O., Selyakh, I., Kononenko, N., Stadnichuk, I.@Chromosome numbers and nuclear DNA contents in the red microalgae Cyanidium caldarium and three Galdieria species.@Eur. J. Phycol.,@36,@227–232.@2001@@chromosome number; Cyanidium caldarium; DNA content; Galdieria maxima; Galdieria partita; Galdieria sulphuraria; genome size@NIES-3638@NIES3638
2689@Barbier, G., Oesterhelt, C., Larson, M. D., Halgren, R. H., Wilkerson, C., Garavito, R. M., Benning, C., Weber, A. P. M.@Comparative genomics of two closely related unicellular thermo-acidophilic red algae, Galdieria sulphuraria and Cyanidioschyzon merolae, reveals the molecular basis of the metabolic flexibility of Galdieria sulphuraria and significant differences in carbohydrate metabolism of both algae.@Plant Physiol.,@137,@460-474.@2005@@@NIES-3638@NIES3638
2690@Weber, A. P. M., Oesterhelt, C., Gross, W., Bräutigam, A., Imboden, L. A., Krassovskaya, I., Linka, N., Truchina, J., Schneidereit, J., Voll, H., Voll, L. M., Zimmermann, M., Jamai, A., Riekhof, W. R., Yu, B., Garavito, R. M., Benning, C.@EST-analysis of the thermo-acidophilic red microalga Galdieria sulphuraria reveals potential for lipid A biosynthesis and unveils the pathway of carbon export from rhodoplasts.@Plant Mol. Biol.,@55,@17-32.@2004@@cyanidiales; EST-analysis; extremophile; genomics@NIES-3638@NIES3638
2691@Oesterhelt, C., Gross, W.@Different sugar kinases are involved in the sugar sensing of Galdieria sulphuraria.@Plant Physiol.,@128,@291-299.@2002@@@NIES-3638@NIES3638
2692@Oesterhelt, C., Schnarrenberger, C., Gross, W.@The reaction of mechanism of phosphomannomutase in plants.@FEBS Lett.,@401,@35-37.@1997@@Galdieria sulphuraria; Rhodophyta; Phosphomannomutase; Mannose-1,6-bisphosphate; Reaction mechanism@NIES-3638@NIES3638
2693@Gross, W., Schnarrenberger, C.@Heterotrophic growth of two strains of the acido-thermophilic red alga Galdieria sulphuraria.@Plant Cell Physiol.,@36,@633-638.@1995@@Galdieria sulphuraria; Heterotrophy; Monosaccharides; Pigmentation; Rhodophyta; Sugar alchols@NIES-3638@NIES3638
2694@Takeuchi, A., Katsumata, M., Koike, T., Takata, Y., Itatsu, Y., Kusui, T.@Comparison of the conventional algal growth inhibition tests using cell counting and algal bioassay using delayed fluorescence: application to industrial effluents.@J. Water Environ. Technol.,@12,@367-377.@2014@@algal growth inhibition test; delayed fluorescence; rapid bioassay; whole effluent toxixity@NIES-35@NIES35
2695@del Campo, J., Sieracki, M.E., Molestina, R., Keeling, P., Massana, R., Ruiz-Trillo, I.@The others: our biased perspective of eukaryotic genomes.@Trends Ecol. Evol.,@29,@252-259.@2014@@@NIES-3371@NIES3371@NIES-2751@NIES2751@NIES-2673@NIES2673@NIES-2756@NIES2756@NIES-2693@NIES2693@NIES-2694@NIES2694@NIES-2755@NIES2755@NIES-2758@NIES2758@NIES-2697@NIES2697@NIES-1000@NIES1000@NIES-2590@NIES2590@NIES-2582@NIES2582@NIES-2584@NIES2584@NIES-2587@NIES2587@NIES-2670@NIES2670@NIES-2691@NIES2691@NIES-2696@NIES2696@NIES-2700@NIES2700@NIES-2753@NIES2753@NIES-2761@NIES2761@NIES-3370@NIES3370@NIES-2699@NIES2699@NIES-3369@NIES3369@NIES-2707@NIES2707@NIES-2695@NIES2695
2696@Kashiyama Y., Yokoyama A., Kinoshita Y., Shoji S., Miyashiya H., Shiratori T., Suga H., Ishikawa K., Ishikawa A., Inouye I., Ishida K., Fujinuma D., Aoki K., Kobayashi M., Nomoto S., Mizoguchi T., Tamiaki H.@Ubiquity and quantitative significance of detoxification catabolism of chlorophyll associated with protistan herbivory.@Proc. Nati. Acad. Sci. U. S. A.,@109,@17328-17335.@2012@@phototoxicity of chlorophylls; microbial herbivory; phagocytosis; biodiversity of eukaryotes; microbial loop@NIES-3697@NIES3697@NIES-281@NIES281@NIES-3698@NIES3698
2697@Shiratori T., Yokoyama A., Ishida K.@Phylogeny, ultrastructure, and flagellar apparatus of a new marimonad flagellate Abollifer globosa sp. nov. (Imbricatea, Cercozoa).@Protist,@165,@808-824.@2014@@Cercozoa; Marimonadida; heterotrophic flagellate; ultrastructure; phylogenetic analysis; flagellar apparatus@NIES-3697@NIES3697@NIES-3698@NIES3698
2698@Nakano, S., Chang, K.-H., Shijima, A., Miyamoto, H., Sato, Y., Noto, Y., Ha, J.-Y., Sakamoto, M.@A usage of CO₂ hydrate: Convenient method to increase CO₂ concentration in culturing algae.@Bioresour. Technol.,@172,@444-448.@2014@@CO ₂; Algal culture; Pseudokirchneriella; Population growth@NIES-35@NIES35
2699@Lemieux, C., Otis, C.,Turmel, M.@Chloroplast phylogenomic analysis resolves deep-level relationships within the green algal class Trebouxiophyceae.@BMC Evol. Biol.,@14,@211 (article ID).@2014@@Chlorophyta; Trebouxiophyceae; Plastid genome; Phylogenomics@NIES-2166@NIES2166@NIES-1824@NIES1824
2700@Lemieux, C., Otis, C.,Turmel, M.@Six newly sequenced chloroplast genomes from prasinophyte green algae provide insights into the relationships among prasinophyte lineages and the diversity of streamlined genome architecture in picoplanktonic species.@BMC Evol. Biol.,@14,@857 (article ID).@2014@@Viridiplantae; Prasinophytes; Prasinococcales; Picocystis; Picoplanktonic algae; Nephroselmis; Plastid genome; Phylogenomics; Genome reduction; trans-spliced group II intron@NIES-252@NIES252
2701@Matsumoto, M., Mayama, S., Nemoto, M., Fukuda, Y., Muto, M., Yoshino, T., Matsunaga, T., Tanaka, T.@Morphological and molecular phylogenetic analysis of the high triglyceride-producing marine diatom, Fistulifera solaris sp. nov. (Bacillariophyceae).@Phycol. Res.,@62,@257-268.@2014@@18S rDNA; JPCC DA0580; marine diatom; morphometric analyses@NIES-2722@NIES2722
2702@Takahashi, T., Sato, M., Toyooka, K., Matsuzaki, R., Kawafune, K., Kawamura, M., Okuda,K., Nozaki, H.@Five Cyanophora (Cyanophorales, Glaucophyta) species delineated based on morphological and molecular data.@J. Phycol.,@50, @1058-1069.@2014@@Cyanophora; field-emission scanning electron microscopy; freeze-fracture method; Glaucophyta; molecular phylogeny; morphology; new species; secondary structure of nuclear rDNA ITS-2; taxonomy; ultrastructure@NIES-3645@NIES3645@NIES-764@NIES764@NIES-763@NIES763@NIES-547@NIES547
2703@Liu, J., Gerken, H., Li, Y.@Single-tube colony PCR for DNA amplification and transformant screening of oleaginous microalgae.@J. Appl. Microbiol., @26,@1719-1726.@2014@@Biofuels; Colony PCR; High throughput; Microalgae; Single tube; Transformant screening@NIES-144@NIES144
2704@Kawafune, K., Sato, M., Toyooka, K., Nozaki, H.@Ultrastructure of the rickettsial endosymbiont "MIDORIKO" in the green alga Carteria cerasiformis as revealed by high-pressure freezing and freeze-substitution fixation.@Protoplasma,@250,@949-953.@2013@@Transmission electron microscopy; High-pressure freezing and freeze-substitution fixation; Rickettsiaceae; Endosymbiont; Carteria cerasiformis@NIES-426@NIES426@NIES-424@NIES424
2705@Ohki, K., Fujita, Y.@Aerobic nitrogenase activity measured as acetylene reduction in the marine non-heterocystous cyanobacterium Trichodesmium spp. grown under artificial conditions.@Mar. Biol.,@98,@111-114.@1988@@@NIES-3600@NIES3600
2706@Minoda, A., Sawada, H., Suzuki, S., Miyashita, S., Inagaki, K., Yamamoto, T., Tsuzuki, M.@Recovery of rare earth elements from the sulfothermophilic red alga Galdieria sulphuraria using aqueous acid.@Appl. Microbiol. Biotechnol.,@99,@1513-1519.@2015@@Galdieria sulphuraria; Metal recovery; Red algae; Rare earth elements; Copper@NIES-3638@NIES3638
2707@Ohki, K., Zehr, J. P., Falkowsk, P. G., Fujita, Y.@Regulation of nitrogen-fixation by different nitrogen sources in the marine non-heterocystous cyanobacterium Trichodesmium sp. NIBB1067.@Arch. Microbiol., @156,@335-337.@1991@@Cyanobacterium; Trichodesmium; Nitrogen-fixation; Nitrogenase@NIES-3600@NIES3600
2708@Zehr, J. P., Ohki, K., Fujita, Y.@Arrangement of nitrogenase structural genes in an aerobic filamentous nonheterocystous cyanobacterium.@J. Bacteriol.,@173,@7055-7058.@1991@@@NIES-3600@NIES3600
2709@Zehr, J. P., Ohki, K., Fujita, Y., Landry, D.@Unique modification of adenine in genomic DNA of the marine cyanobacterium Trichodesmium sp. strain NIBB 1067. @J. Bacteriol.,@173,@7059-7062.@1991@@@NIES-3600@NIES3600
2710@Ohki, K., Zehr, J. P., Fujita, Y.@Regulation of nitrogenase activity in relation to the light-dark regime in the filamentous non-heterocystous cyanobacterium Trichodesmium sp. NIBB 1067. @J. Gen. Microbiol., @138,@2679-2685.@1992@@@NIES-3600@NIES3600
2711@Ohki, K.@Intercellular localization of nitrogenase non-heterocystous Cyanobacterium (Cyanophyte), Trichodesmium sp. NIBB 1067. @J. Oceanogr., @64,@211-216.@2008@@Trichodesmium spp.; nitrogenase; whole-cell immunolocalization; immunocytochemical detection; in situ hybridization; diazotrophic cyanobacteria; horseradish peroxidaseconjugated probe; 3,3'-diaminobenzidine @NIES-3600@NIES3600
2712@Mulhollannd, M. R., Ohki, K., Capone, D. G.@Nutrient controls on nitrogen uptake and metabolism by natural populations and cultures of Trichodesmium (Cyanobacteria).@J. Phycol.,@37,@1001-1009.@2001@@Glutamate; glutamine; glutamine synthetase; N₂ fixation; N uptake; Trichodesmium@NIES-3600@NIES3600
2713@Mulhollannd, M. R., Ohki, K., Capone, D. G.@Nitrogen utilization and metabolism relative to pattern of N₂ fixation in cultures of Trichodesmium NIBB1067.@J. Phycol.,@35,@977-988.@1999@@amino acids; glutamate; glutamine; glutamine synthetase; N turnover; N₂ fixation; NH₄⁺ uptake; NO₃^-; Trichodesmium; urea@NIES-3600@NIES3600
2714@Nakayama, T., Nakamura, A., Yokoyama, A., Shiratori, T., Inouye, I., Ishida, K-I.@Taxonomic study of a new eustigmatophycean alga, Vacuoliviride crystalliferum gen. et so. nov.@J. Plant Res.,@128,@249-257.@2015@@Eustigmatophyceae; Phylogeny; Taxonomy; Vacuoliviride crystalliferum gen. et so. nov.@NIES-2860@NIES2860
2715@Tsuchikane, Y., Nakai, A., Sekimoto, H.@Detailed analyses on the parthenospore formation in Closterium moniliferum (Zygnematophyceae, Charophyta).@Phycologia,@53,@571-578.@2014@@Closteriu; Conjugation; Parthenospore; Pheromone; Sexual reproduction@NIES-3646@NIES3646
2716@Kamikawa, R., Yubuki, N., Yoshida, M., Taira, M., Nakamura, N., Ishida, K-I., Leander, B. S., Miyashita, H., Hashimoto, T., Mayama, S., Inagaki, Y.@Multiple losses of photosynthesis in Nitzschia (Bacillariophyceae).@Phycol. Res.,@63,@19-28.@2015@@apochlorotic diatoms; genetic diversity; large subunit rRNA; molecular phylogenetic analysis; nonphotosynthetic plastids; plastid 16S rRNA @NIES-3576@NIES3576@NIES-3578@NIES3578@NIES-3577@NIES3577@NIES-3579@NIES3579@NIES-3580@NIES3580@NIES-3581@NIES3581
2717@Schwender, J., Gemünden, C., Lichtenthaler, H. K.@Chlorophyta exclusively use the 1-deoxyxylulose 5-phosphate/2-C-methylerythritol 4-phosphate pathway for the biosynthesis of isoprenoids.@Planta,@212,@416-423.@2001@@Charophyta; 1-Deoxy-D-xylulose; Green alga; Isopentenyl diphosphate; Isoprenoid biosynthesis; Mevalonate@NIES-296@NIES296
2718@Okumura, C., Saffreena, N., Rahman, M. A., Hasegawa, H., Miki, O., Takimoto, A.@Economic efficiency of different light wavelengths and intensities using LEDs for the cultivation of green microalga Botryococcus braunii (NIES-836) for biofuel production.@Environ. Prog. Sustain. Energy,@34,@269-275.@2015@@microalgae; Botryococcus braunii (NIES-836); growth efficiency; light-emitting diodes (LEDS); economic efficiency@NIES-836@NIES836
2719@Toyoshima, M., Aikawa, S., Yamagishi, T., Kondo, A., Kawai, H.@A pilot-scale floating closed culture system for the multicellular cyanobacterium Arthrospira platensis NIES-39.@J. Appl. Phycol.,@27,@2191-2202.@2015@@Arthrospira (Spirulina) platensis NIES-39; Biomass productivity; Floating closed culture system; Modified seawater medium; Outdoor sulture@NIES-39@NIES39
2720@Li, JR., Wu, Y., Qi, YJ.@microRNAs in a multicellular green alga Volvox carteri.@Sci. China-Life Sci.,@57,@36-45.@2014@@Volvox; small RNA; microRNA; conservation; evolution@NIES-865@NIES865
2721@Phylogenetic analysis of NAP, an unconventional actin of the Volvocales.@Phylogenetic analysis of NAP, an unconventional actin of the Volvocales.@Plant Syst. Evol.,@301,@1725-1733.@2015@@Volvocales; Divergent actin@NIES-717@NIES717@NIES-351@NIES351@NIES-546@NIES546@NIES-3374@NIES3374@NIES-576@NIES576
2722@Tamura, I., Kagota, K., Yasuda, Y., Yoneda, S., Morita, J., Nakada, N., Kameda, Y., Kimura, K., Tatarazako, N., Yamamoto, H.@Ecotoxicity and screening level ecotoxicological risk assessment of five antimicrobial agents: triclosan, triclocarban, resorcinol, phenoxyethanol and p-thymol.@J. Appl. Toxicol.,@33,@1222-1229@2013@@antimicrobial agents; triclosan; triclocarban; phenoxyethanol; ecotoxicity; green algae; Ceriodaphnia dubia; ecological risk@NIES-35@NIES35
2723@Yoo, J. J., Choi, S. P., Kim, J. Y. H., Chang, W. S., Sim, S. J.@Development of thin-film photo-bioreactor and its application to outdoor culture of microalgae.@Bioprocess. Biosyst. Eng.,@36,@729-736.@2013@@Photo-bioreactor; Microalgae; Haematococcus pluvialis; Scale-up; Outdoor @NIES-144@NIES144
2724@Huang, Y., Lee, H., Lai, C.@Engineering of the growth environment of microalgae with high biomass and lipid productivity.@J. Nanosci. Nanotechnol.,@13,@2117-2121.@2013@@Microalgae; Cultivation Environment; Carbon Dioxide; Biomass Productivity; Lipid Productivity@NIES-2199@NIES2199
2725@Beltran, E. C., Neilan, B.@Geographical segregation of the neurotoxin-producing cyanobacterium Anabaena circinalis.@Appl. Environ. Microbiol.,@66,@4468-4474.@2000@@@NIES-40@NIES40@NIES-80@NIES80@NIES-21@NIES21@NIES-19@NIES19@NIES-23@NIES23@NIES-41@NIES41
2726@Eliáš, M. Neustupa, J.@Pseudomarvania, gen. nov. (Chlorophyta, Trebouxiophyceae). a new genus for "budding" subaerial green algae Marvania aerophytica Neustupa et Šejnohová and Stichococcus ampulliformis Handa.@Fottea,@9,@169-177.@2009@@evolution; Marvania; Stichococcus; phylogeny; Trebouxiophyceae; 18S rRNA@NIES-996@NIES996
2727@Poonkum, W., Powtongsook, S., Pavasant, P.@Astaxanthin induction in microalga H. pluvialis with flat panel airlift photobioreactors under indoor and outdoor conditions.@Prep. Biochem. Biotechnol.,@45,@1-17.@2015@@carotenoid; Haematococcus pluvialis; mature cyst; microalgae; pigment; scale-up@NIES-144@NIES144
2728@Pham, T., Shimizu, K., Dao, T., Hong-Do, L., Utsumi, M.@Microcystin uptake and biochemical responses in the freshwater clam Corbicula leana P. exposed to toxic and non-toxic Microcystis aeruginosa: Evidence of tolerance to cyanotoxins.@Toxicology Report,@2,@88-98.@2015@@Bioaccumulation; Biochemical response; Corbicula leana; Microcystins; Toxic and non-toxic@NIES-1086@NIES1086@NIES-2170@NIES2170@NIES-101@NIES101
2729@Wakeman, K. C., Yamaguchi, A., Roy, M. C., Jenke-Kodama, H.@Morphology, phylogeny and novel chemical compounds from Coolia malayensis (Dinophyceae) from Okinawa, Japan.@Harmful Algae,@44,@8-19.@2015@@Coolia malayensis; Cooliatoxin; High-resolution MS; Morphology; NanoLC/MS; Molecular phylogeny@NIES-3637@NIES3637
2730@Okano, K., Miyata, N., Ozaki, Y.@Whole genome sequence of the non-microcystin-producing Microcystis aeruginosa strain NIES-44.@GenomeA,@3,@e00135-15 (article ID).@2015@@@NIES-44@NIES44
2731@Ju, C., Van de Poel, B., Cooper,E.D., Thierer, J., Gibbons, T., Delwiche, C.F., Chang, C.@Conservation of ethylene as a plant hormone over 450 million years of evolution.@Nature Plants,@1,@14004 (article ID).@2015@@@NIES-995@NIES995
2732@Iwasaka, M., Mizukawa, Y.@Effect of intense magnetic fields on the convection of biogenic guanine crystals in aqueous solution.@J. Appl. Phys.,@117,@17E127 (article ID).@2015@@@NIES-407@NIES407
2733@Tomaru, Y., Shirai, Y., Suzuki, H., Nagumo, T., Nagasaki, K.@Isolation and characterization of a new single-stranded DNA virus infecting the cosmopolitan marine diatom Chaetoceros debilis.@Aquat. Microb. Ecol.,@50,@103-112.@2008@@Diatom; Virus; Chaetoceros; DNA; Viral ecology@NIES-3713@NIES3713@NIES-3710@NIES3710
2734@Tomaru, Y., Takao, Y., Suzuki, H., Nagumo, T., Koike, K., Nagasaki, K.@Isolation and characterization of a single-stranded DNA virus infecting Chaetoceros lorenzianus Grunow.@Appl. Environ. Microbiol.,@77,@5285-5293.@2011@@@NIES-3711@NIES3711
2735@Tomaru, Y., Toyoda, K., Suzuki, H., Nagumo, T., Kimura, K., Takao, Y.@New single-stranded DNA virus with a unique genomic structure that infects marine diatom Chaetoceros setoensis.@Sci Rep,@3,@3337 (article ID).@2013@@@NIES-3713@NIES3713@NIES-3710@NIES3710@NIES-3712@NIES3712@NIES-3711@NIES3711
2736@Tomaru, Y., Takao, Y., Suzuki, H., Nagumo, T., Nagasaki, K.@Isolation and characterization of a single-stranded RNA virus infecting the bloom-forming diatom Chaetoceros socialis.@Appl. Environ. Microbiol.,@75,@2375-2391.@2009@@@NIES-3713@NIES3713
2737@Tomaru, Y., Shirai, Y., Toyoda, K., Nagasaki, K.@Isolation and characterisation of a single-stranded DNA virus infecting the marine planktonic diatom Chaetoceros tenuissimus.@Aquat. Microb. Ecol.,@64,@175-184.@2011@@Bacilladnavirus; Chaetoceros; Diatom; ssDNA; Virus; Rod-shaped particle@NIES-3715@NIES3715@NIES-3714@NIES3714
2738@Shirai, Y., Tomaru, Y., Takao, Y., Suzuki, H., Nagumo, T., Nagasaki, K.@Isolation and characterization of a single-stranded DNA virus infecting the marine planktonic diatom Chaetoceros tenuissimus Meunier.@Appl. Environ. Microbiol.,@74,@4022-4027.@2008@@@NIES-3715@NIES3715
2739@Toyoda, K., Kimura, K., Hata, N., Nakayama, N., Nagasaki, K., Tomaru, Y.@Isolation and characterization of a single-stranded DNA virus infecting the marine planktonic diatom Chaetoceros sp. (strain TG07-C28).@Plankton Benthos Res.,@7,@20-28.@2012@@@NIES-3716@NIES3716
2740@Tomaru, Y., Toyoda, K., Kimura, K., Takao, Y., Sakurada, K., Nakayama, N., Nagasaki, K.@Isolation and characterization of a single-stranded DNA virus infecting the marine planktonic diatom Chaetoceros sp. (SS08-C03).@Phycol. Res.,@61,@27-36.@2013@@Bacillarnavirus; Chaetoceros; diatom; ssRNA; virus@NIES-3717@NIES3717
2741@Kimura, K., Tomaru, Y.@Isolation and characterization of a single-stranded DNA virus infecting the marine planktonic diatom Chaetoceros sp. strain SS628-11 isolated from western Japan.@PLoS One, @8,@e82013 (article ID).@2013@@@NIES-3718@NIES3718
2742@Mihirogi, M., Kikuchi, M., Sawai, J.@Development of screening algal growth inhibition test with Dunaliella sp.@Jpn. J. Environ. Toxicol.,@15,@11-16 (in Japanese with English summary).@2012@Medium (Modified Johnson's medium)@@NIES-3744@NIES3744
2743@Shih, C., Chen, H., Lee, H., Tsai, H.@Purple chromoprotein gene serves as a new selection marker for transgenesis of the microalga Nannochloropsis oculata.@PLoS One, @10,@e0120780 (article ID).@2015@@@NIES-2146@NIES2146
2744@Shiraishi, H.@Association of heterotrophic bacteria with aggregated Arthrospira platensis exopolysaccharides: implications in the induction of axenic cultures.@Biosci. Biotechnol. Biochem.,@79,@331-341.@2015@@cyanobacteria; Arthrospira platensis; exopolysaccharides; axenic cultures; Alcian blue@NIES-46@NIES46@NIES-39@NIES39
2745@Matsushita, T., Kobayashi, Y., Nakamura, K., Matsui, Y., Ohno, K.@Effect of transmembrane pressure on geosmin release from Cyanobacterial cell during microfiltration.@Water Practice & Technology,@5,@wpt2010049 (article ID).@2010@@Cyanobacteria; geosmin; microfiltration; water treatment@NIES-824@NIES824
2746@Hirose, Y., Katayama, M., Ohtsubo, Y., Misawa, N., Iioka, E., Suda, W., Oshima, K., Hanaoka, M., Tanaka, K., Eki, T., Ikeuchi, M., Kikuchi, Y., Ishida, M., Hattori, M.@Complete genome sequence of cyanobacterium Geminocystis sp. strain NIES-3708, which performs type II complementary chromatic acclimation.@GenomeA,@3,@e00357-15 (article ID).@2015a@@@NIES-3708@NIES3708
2747@Hirose, Y., Katayama, M., Ohtsubo, Y., Misawa, N., Iioka, E., Suda, W., Oshima, K., Hanaoka, M., Tanaka, K., Eki, T., Ikeuchi, M., Kikuchi, Y., Ishida, M., Hattori, M.@Complete genome sequence of cyanobacterium Geminocystis sp. strain NIES-3709, which harbors a phycoerythrin-rich phycobilisome.@GenomeA,@3,@e00385-15 (article ID).@2015b@@@NIES-3709@NIES3709
2748@Tsuji, Y., Yamazaki, M., Suzuki, I., Shiraiwa, Y.@Quantitative analysis of carbon flow into photosynthetic products functioning as carbon storage in the marine coccolithophore, Emiliania huxleyi.@Mar. Biotechnol., @17,@428-440.@2015@@Alkenones; Carbon partitioning; Carbon storage compound; Emiliania huxleyi; Haptophyte; Lipid; biosynthesis@NIES-837@NIES837
2749@Iwasaka, M., Mizukawa, Y.@Magneto-optical properties of biogenic photonic crystals in algae.@J. Appl. Phys.,@115,@17B501 (article ID).@2014@@@NIES-1313@NIES1313@NIES-1304@NIES1304
2750@Gaget, V., Welker, M., Rippka, R., de Marsac, N. T.@A polyphasic approach leading to the revision of the genus Planktothrix (Cyanobacteria) and its type species, P. agardhii, and proposal for integrating the emended valid botanical taxa, as well as three new species, Planktothrix paucivesiculata sp. nov.^ICNP, Planktothrix tepida sp. nov.^ICNP, Planktothrix serta sp. nov.^ICNP, as genus and species names with nomenclatural standing under th ICNP.@Syst. Appl. Microbiol.,@38,@141-158.@2015@@Polyphasic taxonomy; 16S rRNA gene; ITS; MLST; gyrB; rpoB; rpoC1; Planktothrix Anagnostidis & Komárek 1988^ICN emend. gen. nov. ^ICNP@NIES-905@NIES905@NIES-928@NIES928@NIES-1266@NIES1266
2751@Takahashi, T., Sato, M., Toyooka, K., Nozaki, H.@Surface ornamentation of Cyanophora paradoxa (Cyanophorales, Glaucophyta) cells as revealed by ultra-high resolution field emission scanning electron microscopy.@Cytologia, @79,@119-123.@2014@@Cyanophora paradoxa; Glaucophyta; Peripheral morphology; Field emission scanning electron microscopy; Transmission electron microscopy@NIES-547@NIES547
2752@Nakada, T., Matsuzaki, R., Krienitz, L., Tomiwa, M., Nozaki, H.@Taxonomic reassessment of strains formerly classified as Chloromonas insignis (Volvocales, Chlorophyceae) and description of Gloeomonas anomalipyrenoides sp. nov.@Acta Phytotax. Geobot.,@66,@23-33.@2015@@18S rRNA; Chloromonas; culture strain; Gloeomonas; light microscopy; new species; phycology; phylogeny@NIES-447@NIES447@NIES-3640@NIES3640@NIES-3641@NIES3641@NIES-3642@NIES3642
2753@Hirata, K., Phunchindawan, M., Tukamoto, J., Goda, S., Miyamoto, K.@Cryopreservation of microalgae using encapsulation-dehydration.@CryoLetters, @17,@321-328.@1996@@Dunaliella tertiolecta; microalgae; cryopreservation; encapsulation-dehydration@NIES-32@NIES32@NIES-242@NIES242@NIES-375@NIES375@NIES-396@NIES396@NIES-27@NIES27@NIES-44@NIES44@NIES-422@NIES422@NIES-22@NIES22@NIES-19@NIES19@NIES-8@NIES8@NIES-437@NIES437@NIES-24@NIES24
2754@Yamaguchi, H., Suzuki, S., Tanabe, Y., Osana, Y., Shimura, Y., Ishida, K-I., Kawachi, M.@Complete genome sequence of Microcystis aeruginosa NIES-2549, a bloom-forming cyanobacterium from lake Kasumigaura, Japan.@GenomeA,@3,@e00551-15 (article ID).@2015@@@NIES-2549@NIES2549
2755@Berney, C., Geisen, S., Van Wichelen, J., Nitsche, F., Vanormelingen, P., Bonkowski, M., Bass, D.@Expansion of the 'reticulosphere': diversity of novel branching and network-forming amoebae helps to define Variosea (Amoebozoa).@Protist,@166,@271-295.@2015@@Network-forming amoebae; reticulate; Variosea; Amoebozoa; molecuar phylogeny; SSU rDNA@NIES-3722@NIES3722
2756@Ohki, K., Fujita, Y.@Laboratory culture of the pelagic blue-green alga Trichodesmium thiebautii: conditions for unialgal culture.@Mar. Ecol. Prog. Ser.,@7,@185-190.@1982@Medium (Modified Aquil medium)@@NIES-3600@NIES3600
2757@Morel, F.M.M., Rueter, J.G., Anderson,D.M., Guillard, R.R.@Aquil: a chemically defined phytoplankton culture medium for trace metal studies.@J. Phycol.,@15,@135-141.@1979@Medium (Modified Aquil medium)@@NIES-3600@NIES3600
2758@Nakamura, H., Sawada, K., Araie, H., Suzuki, I., Shiraiwa, Y.@n-Nonacosadienes from the marine haptophytes Emiliania huxleyi and Gephyrocapsa oceanica.@Phytochemistry,@111,@107-113.@2015@@Emiliania huxleyi; Gephyrocapsa oceanica; Haptophyte; Nonacosadiene; Noelaerhabdaceae; Long chain alkene; Biomarker@NIES-1315@NIES1315@NIES-837@NIES837
2759@Shen, X.-F., Chu, F.-F., Lam, P.K.S., Zeng, R.J.@Biosynthesis of high yield fatty acids from Chlorella vulgaris NIES-227 under nitrogen starvation stress during heterotrophic cultivation.@Water Res., @81,@294-300.@2015@@Microalgae; Nitrogen starvation; Heterotrophic cultivation; Fatty acid content; Fatty acid yield; Glucose@NIES-227@NIES227
2760@Sugasawa, M., Matsuzaki, R., Arakaki, Y., Nozaki, H.@Morphology and phylogenetic position of a rare four-celled green alga, Pascherina tetras (Volvocales, Chlorophyceae), based on cultured material.@Phycologia,@54,@342-348.@2015@@Culture strain; Molecular phylogeny; Morphology; Multicellularity; Spondylomoraceae; Ultrastructure@NIES-3750@NIES3750@NIES-3749@NIES3749
2761@Van Wichelen, J., Van Gremberghe, I., Vanormelingen, P., Vyverman.,W.@The importance of morphological versus chemical defences for the bloom-forming cyanobacterium Microcystis against amoebae grazing.@Aquat. Ecol.,@46,@73-84.@2012@@Microcystis; Amoebae; Grazing; Cyanobacteria; Biochemicals; Colony morphology@NIES-3730@NIES3730@NIES-3726@NIES3726
2762@Nagai, T., Taya, K., Yoda, I.@Comparative toxicity of 20 herbicides to 5 periphytic algae and the relationship with mode of action.@Environ. Toxicol. Chem.,@35,@368-375.@2016@@Attached algae; In-vivo fluorescence; Pesticides; Species sensitivity distribution@NIES-512@NIES512@NIES-797@NIES797@NIES-487@NIES487@NIES-71@NIES71
2763@Ichinomiya, M., Kuwata, A.@Seasonal variation in abundance and species composition of the Parmales community in the Oyashio region, western North Pacific.@Aquat. Microb. Ecol.,@75,@207-223.@2015@@Parmales; Seasonal variation; Species composition; Growth; Oyashio Current@NIES-3699@NIES3699@NIES-3701@NIES3701
2764@Edvardsen, B., Eikrem, W., Throndsen, J., Sáez, A. G., Probert, I., Medlin, L. K.@Ribosomal DNA phylogenies and a morphological revision provide the basis for a revised taxonomy of the Prymnesiales (Haptophyta).@Eur. J. Phycol.,@46,@202-228.@2011@@Chrysochromulinaceae; Haptophyta; phylogeny; phytoplankton; Prymnesiales; Pseudohaptolina arctica; ribosomal DNA; taxonomy@NIES-1333@NIES1333@NIES-1393@NIES1393
2765@Suzuki, K., Mitra, S., Iwata, O., Ishikawa, T., Kato, S., Yamada, K.@Selection and characterization of Euglena anabaena var. minor as a new candidate Euglena species for industrial application.@Biosci. Biotechnol. Biochem.,@79,@1730-1736.@2015@@Euglena anabaena var. minor; Euglena gracilis; paramylon@NIES-48@NIES48@NIES-3745@NIES3745
2766@Bhuiyan, MAH., Faria, DG., Horiguchi, T., Sym, SD., Suda, S.@Taxonomy and phylogeny of Pyramimonas vacuolata sp. nov. (Pyramimonadales, Chlorophyta).@Phycologia,@54,@323–332.@2015@@18S rDNA sequence; Morphology; Phylogeny; Pyramimonas; Pyramimonas vacuolata sp. nov.; rbcL; Taxonomy; Ultrastructure@NIES-3400@NIES3400
2767@Isono, T., Yamashita, K., Momose, D., Kobayashi, H., Kitamura, M., Nishiyama, Y., Hosoya, T., Kanda, H., Kudo, A., Okada, N., Yagi, T., Nakata, K., Mineki, S., Tokunaga, E.@Scan-free absorbance spectral imaging A(x, y, λ) of single live algal cells for quantifying absorbance of cell suspensions.@PLoS One, @10,@e0128002 (article ID).@2015@@@NIES-2238@NIES2238
2768@Koeduka, T., Ishizaki, K., Mwenda, C. M., Hori, K., Sasaki-Sekimoto, Y., Ohta, H., Kohchi, T., Matsui, K.@Biochemical characterization of allene oxide synthases from the liverwort Marchantia polymorpha and green microalgae Klebsormidium flaccidum provides insight into the evolutionary divergence of the plant CYP74 family.@Planta,@242,@1175-1186.@2015@@Allene oxide synthase; Plant evolution; CYP74; Hydroperoxide lyase; C8 volatiles@NIES-2285@NIES2285
2769@Jin, P., Gao, K., Beardall, J.@Evolutionary responses of a coccolithophorid Gephyrocapsa oceanica to ocean acidification.@Evolution,@67,@1869-1878.@2013@@CCM; CO₂; coccolithophore; Gephyrocapsa; pH; selection@NIES-1318@NIES1318
2770@Ono, M., Sawada, K., Kubota, M., Shiraiwa, Y.@Change of the unsaturation degree of alkenone and alkenoate during acclimation to salinity change in Emiliania huxleyi and Gephyrocapsa oceanica with reference to palaeosalinity indicator.@Res. Org. Geochem., @25,@53-60.@2009@@@NIES-837@NIES837@NIES-838@NIES838
2771@Kayano, K., Saruwatari, K., Kogure, T., Shiraiwa, Y.@Effect of coccolith polysaccharides isolated from the coccolithophorid, Emiliania huxleyi, on calcite crystal formation in in vitro CaCO₃ crystallization.@Mar. Biotechnol.,@13,@83-92.@2011@@Acid polysaccharide; Biomineralization; Coccolith; Coccolith polysaccharide; Calcium carbonate crystalization; Emiliania huxleyi@NIES-837@NIES837
2772@Jin, P., Gao, K., Villafañe, V. E., Campbell, D. A., Helbling, E. W.@Ocean acidification alters the photosynthetic responses of a coccolithophorid to fluctuating ultraviolet and visible radiation.@Plant Physiol.,@162,@2084-2094.@2013@@@NIES-1318@NIES1318
2773@Iwai, M., Hori, K., Sasaki-Sekimoto, Y., Shimojima, M., Ohta, H.@Manipulation of oil synthesis in Nannochloropsis strain NIES-2145 with a phosphorus starvation–inducible promoter from Chlamydomonas reinhardtii.@Front. Microbiol.@6,@912 (article ID).@2015@@algae; Nannochloropsis; phosphorus starvation; inducible promoter; triacylglycerol@NIES-2145@NIES2145
2774@Matsuzaki, R., Kawai-Toyooka, H., Hara, Y., Nozaki, H.@Revisiting the taxonomic significance of aplanozygote morphologies of two “cosmopolitan” snow species of the genus Chloromonas (Volvocales, Chlorophyceae).@Phycologia,@54,@491–502.@2015@@Chloromonas brevispina; Chloromonas krienitzii sp. nov.; Chloromonas nivalis; Molecular phylogeny; Morphology; Snow algae; Ultrastructure@NIES-2379@NIES2379@NIES-2380@NIES2380@NIES-3389@NIES3389@NIES-3752@NIES3752@NIES-3753@NIES3753
2775@Honda, R., Rukapan, W., Komura, H., Teraoka, Y., Noguchi, M., Hoek, E.M.V.@Effects of membrane orientation on fouling characteristics of forward osmosis membrane in concentration of microalgae culture.@Bioresour. Technol.,@197,@429-433.@2015@@Forward osmosis; Microalgae; Membrane fouling; Extracellular polymeric substances (EPS)@NIES-2170@NIES2170
2776@Steffen, M. M., Dearth, S. P., Dill, B. D., Li, Z., Larsen, K. M., Campagna, S. R., Wilhelm, S. W.@Nutrients drive transcriptional changes that maintain metabolic homeostasis but alter genome architecture in Microcystis.@ISME J.,@8,@2080-2092.@2014@@cyanobacteria; metabolomics; nitrogen; transcriptomics; transposase; urea@NIES-843@NIES843
2777@Lebret, K., Tesson, S. V. M., Kritzberg, E. S., Tomas, C., Rengefors, K.@Phylogeography of the freshwater raphidophyte Gonyostomum semen confirms a recent expansion in northern Europe by a single haplotype.@J. Phycol.,@51,@768-781.@2015@@Gonyostomum semen; ITS; LSU; phylogeography; raphidophyte SSU@NIES-1009@NIES1009@NIES-1808@NIES1808@NIES-1380@NIES1380
2778@Hirose, Y., Fujisawa, T., Ohtsubo, Y., Katayama, M., Misawa, N., Wakazuki, S., Shimura, Y., Nakamura, Y., Kawachi, M., Yoshikawa, H., Eki, T., Kanesaki, Y.@Complete genome sequence of cyanobacterium Nostoc sp. NIES-3756, a potentially useful strain for phytochrome-based bioengineering.@J. Biotechnol., @218,@51-52.@2016@@@NIES-3756@NIES3756
2779@Fujiwara, T., Kanesaki, Y., Hirooka, S., Era, A., Sumiya, N., Yoshikawa, H., Tanaka, K., Miyagishima, S.@A nitrogen source-dependent inducible and repressible gene expression system in the red alga Cyanidioschyzon merolae.@Front. Plant Sci.,@6,@657 (article ID).@2015@@algae; plants; homologous recombination; conditional knockdown; gene inducible system@NIES-3377@NIES3377
2780@Liu, Y., Hao, A., Iseri, Y., Li, C., Zhang, Z., Kuba, T.@Possible survival mechanisms of Sinanodonta woodiana exposed to microcystin.@J. JSCE,@3,@259-267.@2015@@Sinanodonta woodiana; selective feeding mechanism; Microcystis-blooming; detoxification mechanism; scope for growth (SFG)@NIES-2279@NIES2279@NIES-90@NIES90
2781@Shen, X.-F., Liu, J.-J., Chu, F.-F., Lam, P.K.S., Zeng, R.J.@Enhancement of FAME productivity of Scenedesmus obliquus by combining nitrogen deficiency with sufficient phosphorus supply in heterotrophic cultivation.@Appl. Energy,@158,@348-354.@2015@@Scenedesmus obliquus; Heterotrophic cultivation; Acetate; Nitrogen deficiency; Phosphorus; Biodiesel productivity@NIES-2280@NIES2280
2782@Yamamoto, Y., Shiah, FK.@Effect of sonication on live and fixed cells of Microcystis aeruginosa.@Plankton Benthos Res.,@10,@163-166.@2015@@cell destruction; fixation; Lugol's iodine solution; Microcystis aeruginosa; sonication@NIES-1090@NIES1090@NIES-1157@NIES1157
2783@Shoguchi, E., Shinzato, C., Hisata, K., Satoh, N., Mungpakdee, S.@The large mitochondrial genome of Symbiodinium minutum reveals conserved noncoding sequences between dinoflagellates and Apicomplexans.@Genome Biol. Evol.,@7,@2237-2244.@2015@@Symbiodinium; Plasmodium; mitochondrial genome expansion; RNA editing; gene map; noncoding@NIES-3808@NIES3808
2784@Mungpakdee, S., Shinzato, C., Takeuchi, T., Kawashima, T., Koyanagi, R., Hisata, K., Tanaka, M., Goto, H., Fujie, M., Lin, S., Satoh, N., Shoguchi, E.@Massive gene transfer and extensive RNA editing of a symbiotic dinoflagellate plastid genome.@Genome Biol. Evol.,@6,@1408-1422.@2014@@RNA editing; plastid-associated genes; dinoflagellate; Symbiodinium minutum; hydropathy; light-harvesting complex proteins; minicircles@NIES-3808@NIES3808
2785@Shoguchi, E., Shinzato, C., Kawashima, T., Gyoja, F., Mungpakdee, S., Koyanagi, R., Takeuchi, T., Hisata, K., Tanaka, M., Fujiwara, M., Hamada, M., Seidi, A., Fujie, M., Usami, T., Goto, H., Yamasaki, S., Arakaki, N., Suzuki, Y., Sugano, S., Toyoda, A., Kuroki, Y., Fujiyama, A., Medina, M., Coffroth, M. A., Bhattacharya, D., Satoh, N.@Draft assembly of the Symbiodinium minutum nuclear genome reveals dinoflagellate gene structure.@Curr. Biol.,@23,@1399–1408.@2013@@@NIES-3808@NIES3808
2786@Nozaki, H., Matsuzaki, R., Yamamoto, K., Kawachi, M., Takahashi, F.@Delineating a new heterothallic species of Volvox (Volvocaceae, Chlorophyceae) using new strains of “Volvox africanus”.@PLoS One, @10,@e0142632 (article ID).@2015@@@NIES-3780@NIES3780@NIES-3781@NIES3781@NIES-3782@NIES3782@NIES-3783@NIES3783@NIES-3784@NIES3784@NIES-3785@NIES3785@NIES-3786@NIES3786@NIES-863@NIES863
2787@Takahashi, K., Moestrup, Ø., Jordan, R. W., Iwataki, M.@High-level accumulation of triacylglycerol and starch in photoautotrophically grown Chlamydomonas debaryana NIES-2212.@Plant Cell Physiol.,@56,@2447-2456.@2015@@Biofuel; Chlamydomonas debaryana NIES-2212; Fatty acid; Starch; Triacylglycerol@NIES-2212@NIES2212
2788@Takahashi, K., Moestrup, Ø., Jordan, R. W., Iwataki, M.@Two new freshwater woloszynskioids Asulcocephalium miricentonis gen. et sp. nov. and Leiocephalium pseudosanguineum gen. et sp. nov. (Suessiaceae, Dinophyceae) Lacking an Apical Furrow Apparatus.@Protist,@166,@638-658.@2015@@Apical furrow; dinoflagellate; eyespot; Asulcocephalium miricentonis; Leiocephalium pseudosanguineum; Suessiaceae@NIES-3775@NIES3775@NIES-3776@NIES3776@NIES-3777@NIES3777
2789@Shao, J., He, Y., Li, F., Zhang, H., Chen, A., Luo, S., Gu, J.-D.@Growth inhibition and possible mechanism of oleamide against the toxin-producing cyanobacterium Microcystis aeruginosa NIES-843.@Ecotoxicology,@25,@225-233.@2016@@Oleamide; Microcystis aeruginosa; Growth inhibition; Photosynthesis; Microcystins@NIES-843@NIES843
2790@Shimura, Y., Hirose, Y., Misawa, N., Osana, Y., Katoh, H., Yamaguchi, H., Kawachi, M.@Comparison of the terrestrial cyanobacterium Leptolyngbya sp. NIES-2104 and the freshwater Leptolyngbya boryana PCC 6306 genomes.@DNA Res.,@22,@403-412.@2015@@comparative genomics; cyanobacteria; genome sequence; nitrogen fixation@NIES-2104@NIES2104
2791@Katoh, H., Furukawa, J., Tomita-Yokotani, K. and Nishi, Y.@Isolation and purification of an axenic diazotrophic drought-tolerant cyanobacterium, Nostoc commune, from natural cyanobacterial crusts and its utilization for field research on soils polluted with radioisotopes.@Biochim. Biophys. Acta-Bioenerg.,@1817,@1499-1505.@2012@@Cyanobacterium; Nostoc commune; Desiccation; Radiation; Space agriculture@NIES-4070@NIES4070
2792@Kimura, Y., Kimura, S., Sato, S., Katho, H., Abe, T., Arai, M., Tomita-Yokotani, K.@Evaluation of a cyanobacterium, Nostoc sp. HK-01, as food material for space agriculture on Mars.@Biological Sciences in Space,@29,@24-31.@2015@@Cyanobacteria; Food; Martian regolith simulant (MRS); Nostoc sp. HK-01; Radicalscavenging activity; Space Agriculture@NIES-4070@NIES4070@NIES-2109@NIES2109
2793@Kim, B.-H., Ramanan, R., Kang, Z., Cho, D.-H., Oh, H.-M., Kim, H.-S.@Chlorella sorokiniana HS1, a novel freshwater green algal strain, grows and hyperaccumulates lipid droplets in seawater salinity.@Biomass Bioenerg.,@85,@300-305.@2016@@Chlorella; Salt stress; Green algae; Lipid droplets; Biodiesel; Commercialization@NIES-2150@NIES2150
2794@Kobayashi, Y., Takusagawa, M., Harada, N., Fukao, Y., Yamaoka, S., Kohchi, T., Hori, K., Ohta, H., Shikanai, T., Nishimura, Y.@Eukaryotic components remodeled chloroplast nucleoid organization during the green plant evolution.@Genome Biol. Evol.,@8,@1-16.@2016@@chloroplast; nucleoid; evolution; endosymbiosis@NIES-2285@NIES2285
2795@Kawachi, Y., Tomita, T., Matsunaga, N., Murase, N.@Observation of Spirulina platensis during freeze-thawing for the purpose of establishment of cryopreservation protocol.@Cryobiology and Cryotechnology,@61,@65-68 (in Japanese with English summary).@2015@@@NIES-46@NIES46
2796@Saruwatari, K., Satoh, M., Harada, N., Suzuki, I., Shiraiwa, Y.@Change in coccolith morphology by responding to temperature and salinity in coccolithophore Emiliania huxleyi (Haptophyta) isolated from the Bering and Chukchi Seas.@Biogeosciences,@13,@2743-2755.@2016@@@NIES-3362@NIES3362@NIES-3366@NIES3366@NIES-1311@NIES1311
2797@Sugasawa, M., Matsuzaki, R., Kawafune, K., Takahashi, T., Kawachi, M., Krientiz, L., Nozaki, H.@Taxonomic study of Pyrobotrys (Spondylomoraceae, Chlorophyceae) based on comparative morphological and molecular analyses of culture strains established using novel methods.@Cytologia, @80,@513-524.@2015@@Molecular phylogeny; Morphology; Pyrobotrys; Pyrobotrys elongata; Spondylomoraceae; Stigma; Taxonomy; Ultrastructure@NIES-3769@NIES3769@NIES-3770@NIES3770@NIES-3771@NIES3771@NIES-3774@NIES3774@NIES-3772@NIES3772@NIES-3773@NIES3773@NIES-3768@NIES3768
2798@Okamura, T., Kondo, R.@Suigetsumonas clinomigrationis gen. et sp. nov., a novel facultative anaerobic nanoflagellate isolated from the meromictic Lake Suigetsu, Japan.@Protist,@166,@409-421.@2015@@Nanoflagellate; Placididea; Stramenopiles; Ultrastructure@NIES-3647@NIES3647
2799@Yuasa, T., Horiguchi, T., Mayama, S., Takahashi, O.@Gymnoxanthella radiolariae gen. et sp. nov. (Dinophyceae), a dinoflagellate symbiont from solitary polycystine radiolarians.@J. Phycol.,@52,@89-104.@2016@@dinoflagellate; Gymnoxanthella radiolariae gen. et sp. nov.; molecular phylogeny; radiolarians; symbiont; Zooxanthella nutricula@NIES-3649@NIES3649
2800@Kamikawa, R., Tanifuji, Ishikawa, G. S., Ishii, K., Matsuno, Y., Onodera, N. T., Ishida, K-I., Hashimoto, T., Miyashita, H., Mayama, S., Inagaki, Y.@Proposal of a Twin-arginine translocator system-mediated constraint against loss of ATP synthase genes from nonphotosynthetic plastid genomes.@Mol. Biol. Evol.,@32,@2598-2604.@2015@@apochlorotic diatoms; nonphotosynthetic plastid genome; genome reduction; ATP synthase complex; Twin-arginine translocator@NIES-3581@NIES3581
2801@Ota, S., Oshima, K., Yamazaki, T., Kim, S., Yu, Z., Yoshihara, M., Takeda, K., Takeshita, T., Hirata, A., Bišová, K., Zachleder, V., Hattori, M., Kawano, S.@Highly efficient lipid production in the green alga Parachlorella kessleri: draft genome and transcriptome endorsed by whole-cell 3D ultrastructure.@Biotechnol. Biofuels,@9,@13 (article ID).@2016@@Genome; Green alga; Lipid body; Parachlorella kessleri; RNA-seq; Whole-genome sequence; Transcriptome; 3D-TEM@NIES-2152@NIES2152
2802@Toda, K., Takano, H., Nozaki, H., Kuroiwa, T.@The second serine acetyltransferase, bacterial-type O-acetylserine (thiol) lyase and eukaryotic-type O-acetylserine (thiol) lyase from the primitive red alga Cyanidioschyzon merolae.@J. Plant Res.,@114,@291-300.@2001@@Cysteine synthesis; Serine acetyltransferase; O-acetylserine (thiol) lyase; Primitive red alga; Cyanidioschyzon merolae@NIES-3377@NIES3377
2803@Nozue, S., Mukuno, A., Tsuda, Y., Shiina, T., Terazima, M., Kumazaki, S.@Characterization of thylakoid membrane in a heterocystous cyanobacterium and green alga with dual-detector fluorescence lifetime imaging microscopy with a systematic change of incident laser power.@Biochim. Biophys. Acta-Bioenerg.,@1857,@46–59.@2016@@Photosystem II; Photosystem I; Chlorophyll fluorescence; Fluorescence lifetime imaging microscopy; Heterocystous cyanobacteria; Green algae@NIES-2095@NIES2095
2804@Zienkiewicz, M., Krupnik, T., Drożak, A., Golke, A., Romanowska, E.@Chloramphenicol acetyltransferase a new selectable marker in stable nuclear transformation of the red alga Cyanidioschyzon merolae.@Protoplasma,@254,@587-596.@2017@@Cyanidioschyzon merolae; Chloramphenicol acetyltransferase (CAT) stable genome transformation@NIES-3377@NIES3377
2805@Taniuchi, Y., Murakami, A., Ohki, K.@Whole-cell immunocytochemical detection of nitrogenase in cyanobacteria: improved protocol for highly fluorescent cells.@Aquat. Microb. Ecol.,@51,@237-247.@2008@@Diazotrophic unicellular cyanobacteria; Marine cyanobacteria; Immunocytochemical detection; Nitrogenase; Unicellular cyanobacteria@NIES-3600@NIES3600
2806@Kishi, M., Kawai, M., Toda, T.@Heterotrophic utilization of ethylene glycol and propylene glycol by Chlorella protothecoides.@Algal Res.,@11,@428-434.@2015@@algae; Chlorella protothecoides; Ethylene glycol; Propylene glycol; Heterotrophic; pH@NIES-2168@NIES2168@NIES-2170@NIES2170@NIES-2151@NIES2151
2807@Benke, P. I., Vinay Kumar, M. C. S., Pan, D., Swarup, S.@A mass spectrometry-based unique fragment approach for the identification of microcystins.@Analyst,@140,@1198-1206.@2015@@@NIES-843@NIES843
2808@Hong, M.-E., Choi, Y. Y., Sim, S. J.@Effect of red cyst cell inoculation and iron (II) supplementation on autotrophic astaxanthin production by Haematococcus pluvialis under outdoor summer conditions.@J. Biotechnol., @218, @25–33.@2016@@Haematococcus pluvialis; Photoautotrophic culture; Astaxanthin; Summer outdoor conditions; Red cyst cell (aplanospore) inoculation method; Iron(Fe2+) supplementation method@NIES-144@NIES144
2809@Yoo, J. J., Choi, S. P., Kim, B. W., Sim, S. J.@Optimal design of scalable photo-bioreactor for phototropic culturing of Haematococcus pluvialis.@Bioprocess. Biosyst. Eng.,@35,@309-315.@2012@@Photo-bioreactor; Haematococcus pluvialis; Astaxanthin; Improved factors; Mixing@NIES-144@NIES144
2810@Yamazaki, T; Hirai, C; Ota, S; Kuwano, K; Kawano, S.@Use of FM1-43, a membrane-specific fluorescent dye, to estimate plasma membrane integrity in the cryopreservation of green algae.@CryoLetters, @35,@180-187.@2014@@FM1-43, cryopreservation, two-step freezing, plasma membrane, green algae, Parachlorella kessleri@NIES-2152@NIES2152
2811@Kuroiwa, T., Ohnuma, M., Nozaki, H., Imoto, Y., Misumi, O., Kuroiwa, H.@Cytological evidence of cell-nuclear genome size of a new ultra-small unicellular freshwater green alga, “Medakamo hakoo” strain M-hakoo 311 I. Comparison with Cyanidioschyzon merolae and Ostreococcus tauri.@Cytologia, @80,@143-150.@2015@@Ultra-small alga; Chlorophyte M. hakoo; Cyanidioschyzon merolae; Ostreococcus tauri; Genome size; Cytochemistry@NIES-2673@NIES2673@NIES-3377@NIES3377@NIES-4000@NIES4000
2812@Aktas, T. S., Fujibayashi, M., Takeda, F., Maruo, C., Nishimura, O.@The role of rapid mixing condition on picophytoplankton floc growth.@Desalin. Water Treat.,@52,@1404-1413.@2014@@Velocity gradient; Rapid mixing time; Picophytoplankton; Floc formation and breakage; Turbidity removal@NIES-1348@NIES1348
2813@Nagai, M., Oguri, M., Shibata, T.@Characterization of light-controlled Volvox as movable microvalve element assembled in multilayer microfluidic device.@Jpn. J. Appl. Phys.,@54,@067001 (article ID).@2015@@@NIES-865@NIES865
2814@Wen, Z., Liu, Z., Hou, Y., Liu, C., Gao, F., Zheng, Y., Chen, F.@Ethanol induced astaxanthin accumulation and transcriptional expression of carotenogenic genes in Haematococcus pluvialis.@Enzyme Microb. Technol., @78,@10-17.@2015@@Haematococcus pluvialis; Astaxanthin; Ethanol; ipi; Fed-batch induction@NIES-144@NIES144
2815@Giannelli, L., Yamada, H., Katsuda, T., Yamaji, H.@Effects of temperature on the astaxanthin productivity and light harvesting characteristics of the green alga Haematococcus pluvialis.@J. Biosci. Bioeng.,@119,@345–350.@2015@@Haematococcus pluvialis; Photobioreactor; Astaxanthin; Photosynthetic efficiency@NIES-144@NIES144
2816@Ichinomiya, M., Lopes dos Santos, A., Gourvil, P., Yoshikawa, S., Kamiya, M., Ohki, K., Audic, S., De Vargas, C., Noël, M. H., Vaulot, D., Kuwata, A.@Diversity and oceanic distribution of the Parmales (Bolidophyceae), a picoplanktonic group closely related to diatoms.@ISME J.,@10,@2419-2434.@2016@@@NIES-3371@NIES3371@NIES-2682@NIES2682@NIES-3370@NIES3370@NIES-2565@NIES2565@NIES-3699@NIES3699@NIES-3700@NIES3700@NIES-3701@NIES3701@NIES-3369@NIES3369
2817@Nakada, T., Tomita, M., Wu, J.-T., Nozaki, H.@Taxonomic revision of Chlamydomonas subg. Amphichloris (Volvocales, Chlorophyceae), with resurrection of the genus Dangeardinia and Descriptions of Ixipapillifera gen. nov. and Rhysamphichloris gen. nov.@J. Phycol.,@52,@283-304.@2016@@Chlamydomonas subg.; Amphichloris; Dangeardinia; Ixipapillifera; mitochondria; molecular phylogeny; morphology; new species; Rhysamphichloris; taxonomy; Volvocales@NIES-3706@NIES3706@NIES-3707@NIES3707@NIES-3704@NIES3704@NIES-3705@NIES3705@NIES-3702@NIES3702@NIES-3703@NIES3703@NIES-2575@NIES2575@NIES-2320@NIES2320@NIES-2321@NIES2321@NIES-2322@NIES2322
2818@Hirose, Y., Fujisawa, T., Ohtsubo, Y., Katayama, M., Misawa, N., Wakazuki, S., Shimura, Y., Nakamura, Y., Kawachi, M., Yoshikawa, H., Eki, T., Kanesaki, Y.@Complete genome sequence of cyanobacterium Fischerella sp. NIES-3754, providing thermoresistant optogenetic tools.@J. Biotechnol.,@220, @45-46.@2016@@Cyanobacteria; Genome; Photosensor; Thermophile@NIES-3754@NIES3754
2819@Kawachi, M., Kataoka, T., Sato, M., Noël, M.-H., Kuwata, A., Demura, M., Yamaguchi, H.@Application of cryopreservation to genetic analyses of a photosynthetic picoeukaryote community.@Gene,@576,@708-716.@2016@@18S rRNA gene; 454 pyros equencing; Cryopreservation; Photosynthetic picoeukaryotes@NIES-1966@NIES1966@NIES-765@NIES765@NIES-2842@NIES2842
2820@Nichol, B. E., Budd, K., Palmer, G. R., MacArthur, D.@The mechanisms of fluoride toxicity and fluoride resistance in Synechococcus leopoliensis (Cyanophyceae).@J. Phycol.,@23,@535-541.@1987@@acidification; bluegreen algae; Cyanophyta; fluoride; phytoplankton; tolerance; toxicity@NIES-3277@NIES3277
2821@Nozaki, H., Ueki, N., Misumi, O., Yamamoto, K., Yamashita, S., Herron, M. D., Rosenzweig, F.@Morphology and reproduction of Volvox capensis (Volvocales, Chlorophyceae) from Montana, USA.@Phycologia,@54,@316-320.@2015@@Monoecious species; Morphology; Pplyspermy; Reproduction; Volvox capensis; Volvox sect. Volvox@NIES-3874@NIES3874
2822@Yamada, K., Nagasato, C., Motomura, T., Ichinomiya, M., Kuwata, A., Kamiya, M., Ohki, K., Yoshikawa, S.@Mitotic spindle formation in Triparma laevis NIES-2565 (Parmales, Heterokontophyta).@Protoplasma,@254,@461-471.@2017@@Central spindle; Centriole; Diatom; Extranuclear spindle; Mitosis; Nuclear envelope@NIES-2565@NIES2565
2823@Mori, I. C., Arias-Barreiro, C. R., Koutsaftis, A., Ogo, A., Kawano, T., Yoshizuka, K., Inayat-Hussain, S. H., Aoyama, I.@Toxicity of tetramethylammonium hydroxide to aquatic organisms and its synergistic action with potassium iodide.@Chemosphere,@120,@299-304.@2015@@Tetramethylammonium hydroxide; Potassium iodide; Aquatic toxicity; Synergism; D. magna; Semiconductor wastewater@NIES-35@NIES35
2824@Hua, J., Lee, R.W.@Factors affecting codon bias in the mitochondrial genomes of the Streptophyte Mesostigma viride and the Chlorophyte Chlamydomonas reinhardtii.@J. Eucaryot. Microbiol.,@59,@287-289.@2012@@Green algae; mutation; selection; synonymous codon usage@NIES-296@NIES296
2825@Watanabe, H., Tamura, I., Abe, R. Takanobu, H., Nakamura, A., Suzuki, T., Hirose, A., Nishimura, T., Tatarazako, N.@Chronic toxicity of an environmentally relevant mixture of pharmaceuticals to three aquatic organisms (alga, daphnid, and fish).@Environ. Toxicol. Chem.,@35,@996-1006.@2016@@Mixture toxicity; Pharmaceutical; Short-term chronic toxicity test; Concentration addition; Independent action@NIES-35@NIES35
2826@Shiraiwa, Y., Inouye, I., Ishida, K.@放射性同位元素の除去剤および除去方法@In Nippon-koku Tokkyo-chô (JP), Kôkai Tokkyo Kôhô (A), Tokukai2014-6051,@@30 pp.@2014@@@NIES-2854@NIES2854@NIES-2855@NIES2855@NIES-2856@NIES2856@NIES-2857@NIES2857@NIES-2858@NIES2858@NIES-2859@NIES2859@NIES-2860@NIES2860
2827@Tajima, N., Saitoh, K., Sato, S., Maruyama, F., Ichinomiya, M.,Yoshikawa, S., Kurokawa, K., Ohta, H., Tabata, S., Kuwata, A., Sato, N.@Sequencing and analysis of the complete organellar genomes of Parmales, a closely related group to Bacillariophyta (diatoms).@Curr. Genet.,@62,@887-896.@2016@@Genome sequencing; Heterokonta; Mitochondrial genome; Parmales; Plastid genome; Triparma laevis@NIES-2565@NIES2565
2828@Yamamoto, M., Handa, S., Kawachi, M., Miyamura, S., Nagumo, T., Hirata, A., Kawano, S.@Mother cell wall cleavage during filament formation in Stichococcus bacillaris (Trebouxiophyceae, Chlorophyta).@Cytologia, @81,@35-39.@2016@@Binary fission; Filament formation; Mother cell wall; Stichococcus; Trebouxiophyceae@NIES-3639@NIES3639
2829@Takaichi, S., Yokoyama, A., Mochimaru, M., Uchida, H., Murakami, A.@Carotenogenesis diversification in phylogenetic lineages of Rhodophyta.@J. Phycol.,@52,@329-338.@2016@@alloxanthin; antheraxanthin; carotenogenesis; carotenoid; Cryptophyta; Glaucophyta; lutein; red algae; Rhodophyta; Zeaxanthin@NIES-697@NIES697@NIES-700@NIES700@NIES-705@NIES705@NIES-1332@NIES1332@NIES-2137@NIES2137@NIES-2138@NIES2138@NIES-4696@NIES4696
2830@Kamikawa, R., Shiratori, T., Ishida, K-I., Miyashita, H., Roger, A. J.@Group II intron-mediated trans-splicing in the green-rich mitochondrial genome of an enigmatic eukaryote, Diphylleia rotans.@Genome Biol. Evol.,@8,@458-466.@2016@@Diphyllatia; introns; mitochondria; inverted repeats; trans-splicing@NIES-3764@NIES3764
2831@Zhang, Z., Wang, B., Hu, Q., Sommerfeld, M., Li, Y., Han, D.@A new paradigm for producing astaxanthin from the unicellular green alga Haematococcus pluvialis.@Biotech. Bioeng., @113,@2088-2099.@2016@@astaxanthin; Haematococcus pluvialis; heterotrophy; acclimation@NIES-144@NIES144
2832@Tomita, K., Hasegawa, M., Arii, S., Tsuji, K., Bober, B., Harada, K.@Characteristic oxidation behavior of b-cyclocitral from the cyanobacterium Microcystis.@Environ. Sci. Pollut. Res.,@23,@11998-12006.@2016@@b-cyclocitral; Oxidation; Acidification; Cyanobacteria; Blue color formation; Lysis@NIES-102@NIES102
2833@Hirose, Y., Fujisawa, T., Ohtsubo, Y., Katayama, M., Misawa, N., Wakazuki, S., Shimura, Y., Nakamura, Y., Kawachi, M., Yoshikawa, H., Eki, T., Kanesaki, Y.@Complete genome sequence of cyanobacterium Leptolyngbya sp. NIES-3755.@GenomeA,@4,@e00090-16 (article ID).@2016@@@NIES-3755@NIES3755
2834@Wakasugi, T., Nagai, T., Kapoor, M., Sugita, M., Ito, M., Ito, S., Tsudzuki, J., Nakashima, K., Tsudzuki, T., Suzuki, Y., Hamada, A., Ohta, T., Inamura, A., Yoshinaga, K., Sugiura, M.@Complete nucleotide sequence of the chloroplast genome from the green alga Chlorella vulgaris: The existence of genes possibly involved in chloroplast division.@Proc. Natl. Acad. Sci. U. S. A.,@94,@5967-5972.@1997@@DNA sequence; evolution; gene map; minD; rpoA@NIES-2170@NIES2170
2835@Nakada,T., Ota, S.@What is the correct name for the type of Haematococcus Flot. (Volvocales, Chlorophyceae)?@Taxon,@65,@343-348.@2016@@cryopreservation; epitype; Haematococcus; lectotype@NIES-2264@NIES2264
2836@Watanabe, S., Fučíková, K., Lewis, L. A., Lewis P. O.@Hiding in plain sight: Koshicola spirodelophila gen. et sp. nov. (Chaetopeltidales, Chlorophyceae), a novel green alga associated with the aquatic angiosperm Spirodela polyrhiza.@Am. J. Bot.,@103,@865-875.@2016@Medium (9:1 agar medium)@biodiversity; chloroplast genome; epiphyte; gene loss; pyrenoid; transmission electron microscopy@NIES-3575@NIES3575
2837@Yagi, Satoshi, Kawakami, H., Fujiwara, T., Ishikawa, N., Ito, A., Sasamoto, M., Umita, T.@Individual and combined toxicity of antibacterial substances to green alga Pseudokirchneriella subcapitata.@J. Jpn. Soc. Wat. Environ.,@3,@63-70 (in Japanese with English summary).@2016@@Green algar; EC₅₀; Toxicity test; Antibacterial substance; Combined toxicity@NIES-35@NIES35
2838@Shiraishi, H.@Cryopreservation of the edible alkalophilic cyanobacterium Arthrospira platensis.@Biosci. Biotechnol. Biochem.,@80,@2051-2057.@2016@@cyanobacteria; dietary supplements; spirulina; Arthrospira platensis; cryopreservation@NIES-2308@NIES2308@NIES-46@NIES46@NIES-39@NIES39
2839@Kobayashi, A., Sekiguchi, Y., Oroguchi, T., Okajima, K., Fukuda, A., Oide,, M., Yamamoto, M., Nakasako, M.@Specimen preparation for cryogenic coherent X-ray diffraction imaging of biological cells and cellular organelles by using the X-ray free-electron laser at SACLA.@J. Synchrot. Radiat.,@23,@975-989.@2016@@coherent X-ray diffraction imaging; X-ray free-electron laser; frozen-hydrated non-crystalline specimens; cryogenic X-ray diffraction experiment; structures of cells and cellular organelles@NIES-2087@NIES2087
2840@Ota, S., Yoshihara, M., Yamazaki, T., Takeshita, T., Hirata, A., Konomi, M., Oshima, K., Hattori, M., Bišová, K., Zachleder, V., Kawano, S.@Deciphering the relationship among phosphate dynamics, electron-dense body and lipid accumulation in the green alga Parachlorella kessleri.@Sci Rep,@6,@25731 (article ID).@2016@@@NIES-2152@NIES2152
2841@Shen, X.-F., Liu, J.-J., Chauhan, A. S., Hu, H., Ma, L.-L., Lam, P.K.S., Zeng, R. J.@Combining nitrogen starvation with sufficient phosphorus supply for enhanced biodiesel productivity of Chlorella vulgaris fed on acetate.@Algal Res.,@17,@261-267.@2016@@Heterotrophic cultivation; Lipid productivity; Biodiesel; Microalgae; Nutrient regulation; pH control@NIES-227@NIES227
2842@Sun, L.W., Jiang, W.J., Sato, H., Kawachi, M., Lu, X.W.@Rapid classification and identification of Microcystis aeruginosa strains using MALDI-TOF MS and polygenetic analysis.@PLoS One, @11,@e0156275 (article ID).@2016@@@NIES-100@NIES100@NIES-105@NIES105@NIES-107@NIES107@NIES-109@NIES109@NIES-111@NIES111@NIES-112@NIES112@NIES-478@NIES478@NIES-1053@NIES1053@NIES-1058@NIES1058@NIES-1061@NIES1061@NIES-1068@NIES1068@NIES-1069@NIES1069@NIES-1070@NIES1070@NIES-1076@NIES1076@NIES-1077@NIES1077@NIES-1094@NIES1094@NIES-1101@NIES1101@NIES-1104@NIES1104@NIES-1105@NIES1105@NIES-1113@NIES1113@NIES-1115@NIES1115@NIES-1126@NIES1126@NIES-1134@NIES1134@NIES-1135@NIES1135@NIES-1144@NIES1144@NIES-1151@NIES1151@NIES-1157@NIES1157@NIES-1170@NIES1170@NIES-1213@NIES1213@NIES-1215@NIES1215@NIES-1216@NIES1216@NIES-1217@NIES1217@NIES-1218@NIES1218@NIES-1222@NIES1222@NIES-1224@NIES1224@NIES-44@NIES44@NIES-1230@NIES1230@NIES-1232@NIES1232@NIES-1233@NIES1233@NIES-1239@NIES1239@NIES-88@NIES88@NIES-843@NIES843@NIES-87@NIES87@NIES-89@NIES89@NIES-1043@NIES1043@NIES-1099@NIES1099@NIES-1072@NIES1072@NIES-1085@NIES1085@NIES-1211@NIES1211@NIES-901@NIES901@NIES-101@NIES101@NIES-604@NIES604@NIES-104@NIES104@NIES-90@NIES90
2843@Meglič, A., Pecman, A., Rozina, T., Leštan, D., Sedmak, B.@Electrochemical inactivation of cyanobacteria and microcystin degradation using a boron-doped diamond anode - A potential tool for cyanobacterial bloom control.@J. Environ. Sci.,@53,@248-261.@2016@@Cyanobacterial bloom control; Boron-doped diamond anode; Electro-oxidation; Microcystin degradation; Protein phosphatase-1 inhibition; Water remediation@NIES-843@NIES843
2844@Mano, H., Takeda, F., Kitamura, T., Okamoto, S., Kobayashi, K., Takabatake, H., Yamashita, N., Tanaka, H.@Evalutation of toxicity reduction of treated wastewater by NF and RO membrane technologies based on algal growth inhibition test and short term toxicity test on embryo and sac-fry stages of Medaka.@J. Jpn. Soc. Civill Engineers, Ser. G (Environmental Research),@71,@III 179-III 187(in Japanese with English summary).@2015@@bioassay; nanofiltration membrane; reclaimed water; reverse osmosis membrane; toxicity@NIES-35@NIES35
2845@Itatsu, Y., Takano, T., Jin, J., Fukutomi, M., Kusui, T.@Ecotoxicological assessment of industrial effluents: Toxicity characterization and impact on receiving water.@J. Environ. Chem.,@25,@19-26 (in Japanese with English summary).@2015@@whole effluent toxicity; industrial effluent; toxicity characterization@NIES-35@NIES35
2846@Ogawa, T., Tamoi, M., Kimura, A., Mine, A., Sakuyama, H., Yoshida, E., Maruta, T., Suzuki, K., Ishikawa, T., Shigeoka, S.@Enhancement of photosynthetic capacity in Euglena gracilis by expression of cyanobacterial fructose-1,6-/sedoheptulose-1,7-bisphosphatase leads to increases in biomass and wax ester production.@Biotechnol. Biofuels,@8,@80 (article ID).@2015@@Euglena gracilis; Biofuel; Wax ester; Paramylon; Biomass; fructose-1,6-/sedoheptulose-1,7-bisphosphatase; Photosynthesis@NIES-48@NIES48
2847@Ohkouchi, Y., Tajima, S., Nomura, M., Itoh, S.@Inflammatory responses and potencies of various lipopolysaccharides from bacteria and cyanobacteria in aquatic environments and water supply systems.@Toxicon,@97,@23-31.@2015@@Lipopolysaccharide (LPS); Purification; Endotoxin; Indigenous bacteria/cyanobacteria; Human monocytic cells; Cytokine secretion@NIES-44@NIES44@NIES-946@NIES946
2848@Jin, P., Gao, K.@Reduced resilience of a globally distributed coccolithophore to ocean acidification: Confirmed up to 2000 generations.@Mar. Pollut. Bull.,@103,@101-108.@2016@@Ocean acidification; Coccolithophore; Evolution; Phenotypic plasticity; Fitness@NIES-1318@NIES1318
2849@Yamagishi, T., Kurihara, A., Kawai, H.@A ribbon-like structure in the ejective organelle of the green microalga Pyramimonas parkeae (Prasinophyceae) consists of core histones and polymers containing N-acetyl-glucosamine.@Protist,@166,@522-533.@2015@@Core histone; ejectisome; N-acetyl-glucosamine; Pyramimonas parkeae@NIES-254@NIES254@NIES-251@NIES251
2850@Liu, X., Beyrend-Dur, D., Dur, G., Ban, S.@Combined effects of temperature and food concentration on growth and reproduction of Eodiaptomus japonicus (Copepoda: Calanoida) from Lake Biwa (Japan).@Freshw. Biol.,@60,@2003-2018.@2015@@copepod dynamics; egg production; Eodiaptomus japonicus; individual growth rates; temperature–food effects@NIES-282@NIES282@NIES-2235@NIES2235
2851@Motokawa, S., Taguchi, S.@Scattering properties of the dinoflagellates Prorocentrum micans and P. minimum.@Plankton Benthos Res.,@10,@154-162.@2015@@absorption; ac-9; equivalent spherical diameter; ratio of cellular carbon to chlorophyll a; scattering efficiency@NIES-218@NIES218@NIES-237@NIES237
2852@Oda, T., Nakamura, A., Shikayama, M., Kawano,I., Ishimatsu, A., Muramatsu, T.@Generation of reactive oxygen species by Raphidophycean phytoplankton.@Biosci. Biotechnol. Biochem.,@61,@1658-1662.@1997@@red tide planlton; Raphidophyceae; Chattonella marina; reactive oxygen species; toxicity@NIES-15@NIES15@NIES-6@NIES6
2853@Hanschen, E. R., Marriage, T.N., Ferris, P.J., Hamaji, T., Toyoda, A., Fujiyama,A., Neme,R., Noguchi,H., Minakuchi, Y., Suzuki, M., Kawai-Toyooka, H., Smith, D.R., Sparks, H., Anderson, J., Bakaric, R., Luria, V., Karger, A., Kirschner, M.W., Durand, P.M., Michod, R.E., Nozaki, H., Olson, B.J.@The Gonium pectorale genome demonstrates co-option of cell cycle regulation during the evolution of multicellularity.@Nat. Commun.,@7,@11370 (article ID).@2016@@@NIES-2863@NIES2863
2854@Yoshikawa, K., Aikawa, S., Kojima, Y., Toya, Y., Furusawa, C., Kondo, A., Shimizu, H.@Construction of a genome-scale metabolic model of Arthrospira platensis NIES-39 and metabolic design for cyanobacterial bioproduction.@PLoS One, @10,@e0144430 (article ID).@2015@@@NIES-39@NIES39
2855@Kwak, H. S., Kim, J. Y. H., Sim, S. J.@A microreactor system for cultivation of Haematococcus pluvialis and astaxanthin production.@J. Nanosci. Nanotechnol.,@15,@1618-1623.@2015@@Astaxanthin; Haematococcus pluvialis; Microfluidic Devices; Nile Red; PDMS@NIES-144@NIES144
2856@Giannelli, L., Yamaji, H., Katsuda, T.@A numerical model for the quantification of light/dark cycles in microalgal cultures: Air-lift and bubble-column photobioreactor analysis by means of computational fluid dynamics.@J. Chem. Eng. Jpn.,@48,@61-71.@2015@@Microalgae; Photobioreactor; Computational Fluid Dynamics; Flashing Light; Light Conversion Efficiency@NIES-144@NIES144
2857@Lemieux, C., Vincent, A. T., Labarre, A., Otis, C., Turmel M.@Chloroplast phylogenomic analysis of chlorophyte green algae identifies a novel lineage sister to the Sphaeropleales (Chlorophyceae).@BMC Evol. Biol.,@15,@264 (article ID).@2015@@Chlorophyceae; Chlamydomonadales; Golenkiniaceae; Treubarinia, Jenufa genus; Plastid genome; Flagellar apparatus@NIES-257@NIES257@NIES-425@NIES425
2858@Darienko, T., Gustavs, L., Eggert, A., Wolf, W., Pröschold, T.@Evaluating the species boundaries of green microalgae (Coccomyxa, Trebouxiophyceae, Chlorophyta) using integrative taxonomy and DNA barcoding with further implications for the species identification in environmental samples.@PLoS One, @10,@e0127838 (article ID).@2015@@@NIES-2252@NIES2252@NIES-2353@NIES2353@NIES-2166@NIES2166
2859@Decelle, J., Romac, S., Stern, R. F., Bendif, E., Zingone, A., Audic, S., Guiry, M. D., Guillou, L., Tessier, D., Le Gall, F., Gourvil, P., Dos Santos, A. L., Probert, I., Vaulot, D., de Vargas, C., Christen, R.@PhytoREF: a reference database of the plastidial 16S rRNAgene of photosynthetic eukaryotes with curated taxonomy.@Mol. Ecol. Resour., @15,@1435-1445.@2015@@high-throughput sequencing; metabarcoding; photosynthesis; phytoplankton; plastidial 16S rRNA gene; protists@NIES-2565@NIES2565@NIES-764@NIES764@NIES-763@NIES763
2860@Hiraide, R., Kawai-Toyooka, H., Hamaji, T ., Matsuzaki, R., Kawafune, K., Abe, J., Sekimoto, H., Umen, J., Nozaki, H.@The evolution of male–female sexual dimorphism predates the gender-based divergence of the mating locus gene MAT3/RB.@Mol. Biol. Evol.,@30,@1038-1040.@2013@@gender-based divergence; gene conversion; male–female sexual dimorphism; MAT3/RB, mating type locus; volvocine algae@NIES-722@NIES722@NIES-733@NIES733@NIES-866@NIES866@NIES-1711@NIES1711@NIES-1861@NIES1861@NIES-4018@NIES4018@NIES-1859@NIES1859@NIES-3985@NIES3985@NIES-1710@NIES1710
2861@Kawafune K., Hongoh, Y., Hamaji, T ., Sakamoto, T., Kurata, T., Hirooka, S., Miyagishima, S., Nozaki, H.@Two different rickettsial bacteria invading Volvox carteri.@PLoS One, @10,@e0116192 (article ID).@2015@@@NIES-733@NIES733@NIES-398@NIES398@NIES-732@NIES732@NIES-866@NIES866@NIES-397@NIES397
2862@Ferris, P., Olson, B. J., De Hoff, P. L., Douglass, S., Casero, D., Prochnik, S., Geng, S., Rai, R., Grimwood, J., Schmutz, J., Nishii, I., Hamaji, T., Nozaki, H., Pellegrini, M., Umen,J. G.@Evolution of an expanded sex-determining locus in Volvox.@Science,@328,@351-354.@2010@@@NIES-733@NIES733@NIES-732@NIES732
2863@Abe, J., Hirano, N., Komiya, A., Kanda, N., Fujiwara, A., Hori, S., Tsuchikane, Y., Sekimoto, H.@Preparation of knockdown transformants of unicellular charophycean alga, Closterium peracerosum-strigosum-littorale complex.@Bio-protocol,@6,@e1813 (article ID).@2016@@Knockdown; Alga; Closterium; Charophycean; Transformation@NIES-68@NIES68@NIES-67@NIES67
2864@Hosoi-Tanabe, S., Otake, I., Sako, Y.@Phylogenetic analysis of noxious red tide flagellates Chattonella antiqua, C. marina, C. ovata, and C. verruculosa (Raphidophyceae) based on the rRNA gene family.@Fish. Sci.,@72,@1200-1208.@2006@@Chattonella; genetic homogeneity; phylogenetic analysis; Raphidophyceae; rRNA gene family@NIES-121@NIES121@NIES-1@NIES1@NIES-5@NIES5@NIES-86@NIES86@NIES-558@NIES558@NIES-559@NIES559@NIES-603@NIES603@NIES-670@NIES670
2865@Masuda, I., Kamikawa, R., Ueda, M., Oyama, K., Yoshimatsu, S., Inagaki, Y., Sako, Y.@Mitochondrial genomes from two red tide forming raphidophycean algae Heterosigma akashiwo and Chattonella marina var. marina.@Int. J. Syst. Evol. Microbiol.,@10,@130-137.@2011@@Chattonella; Genome evolution; Heterosigma; Mitochondrial genome; Red tide@NIES-121@NIES121@NIES-115@NIES115@NIES-557@NIES557@NIES-558@NIES558@NIES-603@NIES603
2866@Lyra, C., Suomalainen, S., Gugger, M., Vezie, C., Sundman, P., Paulin, L., Sivonen, K.@Molecular characterization of planktic cyanobacteria of Anabaena, Aphanizomenon, Microcystis and Planktothrix genera.@Int. J. Syst. Evol. Microbiol.,@51,@13-526.@2001@@cyanobacteria; 16S rRNA gene; RFLP; sequencing; REP; ERIC@NIES-79@NIES79@NIES-44@NIES44@NIES-81@NIES81@NIES-89@NIES89@NIES-73@NIES73@NIES-98@NIES98@NIES-41@NIES41@NIES-102@NIES102@NIES-104@NIES104
2867@Kim, E., Graham, L. E.@EEF2 analysis challenges the monophyly of Archaeplastida and Chromalveolata.@PLoS One, @3,@e0002621 (article ID).@2008@@@NIES-1335@NIES1335
2868@Coleman, A.W.@Biogeography and speciation in the Pandorina/Volvulina (Chlorophyta) superclade.@J. Phycol.,@37,@836-851.@2001@@biogeography; ITS; Pandorina; Volvulina; Volvocaceae; phylogenetics; speciation; Yamagishiella@NIES-583@NIES583
2869@Wang, Y., Chiu, SY., Ho, SH., Liu, Z., Hasunuma, T., Chang, TT., Chang, KF., Chang, JS., Ren NQ., Kondo, A.@Improving carbohydrate production of Chlorella sorokiniana NIES-2168 through semi-continuous process coupled with mixotrophic cultivation.@Biotechnol. J.,@11,@1072–1081.@2016@@Carbohydrate; Chlorella; Fed-batch; Mixotrophic cultivation; Semi-continuous process@NIES-2168@NIES2168
2870@Kong, F., Yamasaki, T., Kurniasih, S. D., Hou, L., Li, X., Ivanova, N., Okada, S., Ohama, T.@Robust expression of heterologous genes by selection marker fusion system in improved Chlamydomonas strains.@Biotech. Bioeng., @120,@239-245.@2015@@Transgene silencing; Position effect; Squalene synthase-like gene; Botryococcus braunii; Methyltransferase gene@NIES-2235@NIES2235
2871@Aida, T. M., Nonaka, T., Fukuda, S., Kujiraoka, H., Kumagai, Y., Maruta, R., Ota, M., Suzuki, I., Watanabe, M. M., Inomata, H., Smith Jr., R. L.@Nutrient recovery from municipal sludge for microalgae cultivation with two-step hydrothermal liquefaction.@Algal Res.,@18,@61-68.@2016@@Biosolid treatment process; High temperature water; Internal recycle; Wastewater treatment; Microalgae cultivation@NIES-48@NIES48
2872@Annoura, T., Nara, T., Makiuchi, T., Hashimoto, T., Aoki, T.@The origin of dihydroorotate dehydrogenase genes of kinetoplastids, with special reference to their biological significance and adaptation to anaerobic, parasitic conditions.@J. Mol. Evol.,@60,@113-127.@2005@@Dihydroorotate dehydrogenase; Trypanosoma cruzi Bodonid; Kinetoplastid; Euglenozoa; Phylogenetic tree; Gene fusion; Horizontal gene transfer; Anaerobiosis@NIES-48@NIES48
2873@Munakata, H., Nakada, T., Nakahigashi, K., Nozaki, H., Tomita, M.@Phylogenetic position and molecular chronology of a colonial green flagellate, Stephanosphaera pluvialis (Volvocales, Chlorophyceae), among unicellular algae.@J. Eucaryot. Microbiol.,@63,@340-348.@2016@@Balticola; coloniality; divergence time; evolution; molecular phylogeny@NIES-861@NIES861@NIES-4124@NIES4124@NIES-4125@NIES4125@NIES-144@NIES144@NIES-571@NIES571@NIES-446@NIES446@NIES-439@NIES439@NIES-569@NIES569@NIES-656@NIES656@NIES-2293@NIES2293@NIES-887@NIES887@NIES-2564@NIES2564@NIES-428@NIES428@NIES-432@NIES432@NIES-123@NIES123@NIES-421@NIES421@NIES-567@NIES567@NIES-968@NIES968@NIES-1048@NIES1048
2874@Reeb, V. C., Peglar, M. T., Yoon, H. S., Bai, J. R., Wu, M., Siu, P., Grafenberg, J. L., Reyes-Prieto, A., Rummele, S. E., Gross, J., Bhattacharya, D.@Interrelationships of chromalveolates within a broadly sampled tree of photosynthetic protists.@Mol. Phylogenet. Evol.,@53,@202–211.@2009@@Chromalveolata; Multigene phylogenetics; Plastidophila; Rhizaria; Supergroup; Tree of life@NIES-1335@NIES1335@NIES-1334@NIES1334
2875@Mai, J. C., Coleman, A. W.@The internal transcribed spacer 2 exhibits a common secondary structure in green algae and flowering plants.@J. Mol. Evol.,@44,@258-271.@1997@@Angiosperms; Chlamydomonas; Ribosomal RNA; RNA secondary structure; Transcribed spacer@NIES-691@NIES691
2876@Saldarriaga, J. F., Taylor, F. J. R., Cavalier-Smith, T., Menden-Deuer, S., Keeling, P. J.@Molecular data and the evolutionary history of dinoflagellates.@Eur. J. Protistol.,@40,@85-111.@2004@@Dinoflagellates; Ribosomal RNA; Chloroplast evolution; Molecular phylogeny; Theca; Photosynthesis@NIES-471@NIES471
2877@Aikawa, S., Ho, S-H., Nakanishi, A., Chang, J-S., Hasunuma, T., Kondo, A.@Improving polyglucan production in cyanobacteria and microalgae via cultivation design and metabolic engineering.@Biotechnol. J.,@10,@886-898.@2015@@Bioethanol; Cyanobacteria; Metabolic engineering; Microalgae; Polyglucan@NIES-39@NIES39
2878@Parajuli, A., Kwak, D. H., Dalponte, L., Leikoski, N., Galica, T., Umeobika, U., Trembleau, L., Bent, A., Sivonen, K., Wahlsten, M.@A unique tryptophan c-prenyltransferase from the kawaguchipeptin biosynthetic pathway.@Angew. Chem.-Int. Edit.,@7,@3596-3599.@2016@@@NIES-88@NIES88
2879@Komatsu, H., Wada, K., Kanjoh, T., Miyashita, H., Sato, M., Kawachi, M., Kobayashi, M.@Unique chlorophylls in picoplankton Prochlorococcus sp. “Physicochemical properties of divinyl chlorophylls, and the discovery of monovinyl chlorophyll b as well as divinyl chlorophyll b in the species Prochlorococcus NIES-2086.”@Photosynth. Res.,@130,@445-467.@2016@@Chlorophyll; Divinyl chlorophyll; Pheophytin; Photosynthesis; Prochlorococcus@NIES-2087@NIES2087@NIES-2884@NIES2884@NIES-2086@NIES2086@NIES-3376@NIES3376
2880@Park, J-W., Kim, S. H., Ito, T.,Fujii, T., Kim, S. Y., Laurell, T., Lee, S. W., Goda, K.@Acoustofluidic harvesting of microalgae on a single chip.@Biomicrofluidics,@10,@034119 (article ID).@2016@@@NIES-48@NIES48
2881@Yamada, K., Yoshikawa, S., Ohki, K., Ichinomiya, M., Kuwata, K., Motomura, T., Nagasato, C.@Ultrastructural analysis of siliceous cell wall regeneration in the stramenopile Triparma laevis (Parmales, Bolidophyceae).@Phycologia,@55,@602-609.@2016@@Cell wall regeneration; Chloroplast endoplasmic reticulum; Exocytosis; Silica biomineralization; Silica deposition vesicle@NIES-2565@NIES2565
2882@Watanabe, S., Nozaki, H., Nakada, T., Lewis, L. A.@Comparative ultrastructural analysis of Chloromonas and Gloeomonas (Chlorophyceae): tracing the origin of Gloeomonas-specific basal apparatus traits.@Phycologia,@55,@585-601.@2016@@Chloromonadinia; Coarsely striated proximal fiber (CSPF); Distal connecting fiber-associated layered structure (DFLS); Gloeomonas rubrifilum comb. nov.; Ixipapillifera; Morphological novelty@NIES-464@NIES464@NIES-447@NIES447
2883@Nakamura, H., Sawada, K., Araie, H., Shiratori, T., Ishida, K-I., Suzuki, I., Shiraiwa, Y.@Composition of long chain alkenones and alkenoates as a function of growth temperature in marine haptophyte Tisochrysis lutea.@Org. Geochem.,@99,@78-89.@2016@@Alkenones; Chemotaxonomy; Tisochrysis; Isochrysis; U^K₃₇@NIES-2697@NIES2697@NIES-1000@NIES1000@NIES-2590@NIES2590
2884@Featherston, J., Arakaki, Y., Nozaki, H., Durand, P. M., Smith, D. R.@Inflated organelle genomes and a circularmapping mtDNA probably existed at the origin of coloniality in volvocine green algae.@Eur. J. Phycol.,@51,@369-377.@2016@@Genome expansion; green microalga; mitochondrial DNA; plastid DNA; Tetrabaena socialis; Volvocine algae@NIES-571@NIES571
2885@Hong, M. E., Choi, S. P., Park, Y. I., Kim, Y. K., Chang, W. S., Kim, B. W., Sim, S. J.@Astaxanthin production by a highly photosensitive Haematococcus mutant.@Process Biochem.,@47,@1972–1979.@2012@@Haematococcus pluvialis; Astaxanthin; Photo-inducible mutant; Photo-sensitivity@NIES-144@NIES144
2886@Yoshimura, T., Yanagawa, T., Fujiwara, A., Murai, K., Nogata, Y., Furuta, T., Kobayashi, T.@Marine diatom Coscinodiscus wailesii inhibits DPD measurement of residual chlorine in seawater samples.@Sessile Organisms,@33,@38-43 (in Japanese with English summary).@2016@@Residual chlorine; DPD; Seawater; Coscinodiscus wailesii@NIES-237@NIES237@NIES-323@NIES323@NIES-1@NIES1@NIES-5@NIES5
2887@Andemichael, H., Lee, J. W.@Toxicological study of biofuel ethanol with blue green alga Spirulina platensis.@Algal Res.,@18,@110-115.@2016@@Spirulina platensis; Biofuel ethanol; Cyanobacteria; Ethanol tolerance bioassay; Biofuel ethanol toxicological effect@NIES-39@NIES39
2888@Lee, T. Y., Praveenkumar, R., Oh, Y. K. Lee, K., Kim, S. H.@Alginate microgels created by selective coalescence between core drops paired with an ultrathin shell.@J. Mater. Chem. B,@4,@3232-3238.@2016@@@NIES-144@NIES144
2889@Joo, J. C., Ahn, C. H., Lee, S., Jang, D-G., Lee, W. H., Ryu, B. R.@Algal growth potential of Microcystis aeruginosa from reclaimed water.@Water Environ. Res.,@88,@54-62.@2016@@algal growth potential (AGP); Microcystis aeruginosa; reclaimed water; recreational water reuse; soluble reactive phosphorus; wastewater reclamation plant@NIES-298@NIES298
2890@Neilan, B. A., Cox, P. T., Hawkins, P. R., Goodman, A. E.@16S ribosomal RNA gene sequence and phylogeny of toxic Microcystis sp. (Cyanobacteria).@DNA Seq.,@4,@333-337.@1994@@Cyanobacteria; Microcystis; 165 rRNA gene; DNA sequence; taxonomy; phylogeny@NIES-89@NIES89
2891@Rahman, D. Y, Sarian, F. D., van WijkM, A., Martinez-Garcia, M., van der Maarel, M. J. E. C.@Thermostable phycocyanin from the red microalga Cyanidioschyzon merolae, a new natural blue food colorant.@J. Appl. Phycol.,@29,@1233–1239.@2017@@Food colorant; Phycocyanin; Pigments; Red microalga; Cyanidioschyzon merolae@NIES-1332@NIES1332@NIES-4696@NIES4696
2892@Takahashi, T., Nishida, T., Tuji, A., Saito, C., Matsuzaki, R., Sato, M., Toyooka, K., Yasuda, H., Nozaki, H.@Delineation of six species of the primitive algal genus Glaucocystis based on in situ ultrastructural characteristics.@Sci. Rep.,@6,@29209 (article ID).@2016@@@NIES-966@NIES966@NIES-1961@NIES1961@NIES-3867@NIES3867@NIES-1369@NIES1369@NIES-3868@NIES3868@NIES-2141@NIES2141@NIES-3866@NIES3866
2893@Quispe, C. F., Sonderman, O., Khasin, M., Riekhof, W. R., Van Etten, J. L., Nickerson, K. W.@Comparative genomics, transcriptomics, and physiology distinguish symbiotic from free-living Chlorella strains.@Algal Res.,@18,@332-340.@2016@@Chlorella variabilis; Alga-paramecium symbiosis; Algal nitrogen metabolism; Amino acid transporters@NIES-2540@NIES2540@NIES-2541@NIES2541
2894@Peng, H., Wei, D., Chen, G., Chen, F.@Transcriptome analysis reveals global regulation in response to CO₂ supplementation in oleaginous microalga Coccomyxa subellipsoidea C-169.@Biotechnol. Biofuels,@9,@151 (article ID).@2016@@Coccomyxa subellipsoidea C-169; Elevated CO₂; Lipid accumulation; Transcriptomic analysis; Phosphoenolpyruvate carboxylase; Pyruvate carboxylase; Carbamoyl-phosphate synthetase II; Ferredoxin; Vacuolar; H⁺-ATPase@NIES-2166@NIES2166
2895@Yamaguchi, H., Shimura, Y., Suzuki, S., Yamagishi, T., Tatarazako, N., Kawachi, M.@Complete genome sequence of Cyanobium sp. NIES-981, a marine strain potentially useful for ecotoxicological bioassays.@GenomeA,@4,@e00736-16 (article ID).@2016@@@NIES-981@NIES981
2896@Tong, S., Hutchins, D. A., Fu, F., Gao, K.@Effects of varying growth irradiance and nitrogen sources on calcification and physiological performance of the coccolithophoreGephyrocapsa oceanica grown under nitrogen limitation.@Limnol. Oceanogr.,@61,@2234–2242.@2016@@@NIES-1318@NIES1318
2897@Chiu, Y.-T., Yen, H.-K., Lin, T.-F.@An alternativemethodtoquantify2-MIB producing cyanobacteriain in drinking water reservoirs: Method development and field applications.@Environ. Res., @151,@618-627.@2016@@Cyanobacteria; 2-methylisoborneol(2-MIB); 2-MIB-synthesis gene(mibC gene); Tasteandodor; Real-timePCR@NIES-905@NIES905@NIES-512@NIES512@NIES-824@NIES824@NIES-81@NIES81@NIES-2116@NIES2116@NIES-2104@NIES2104
2898@Nazifi, E., Wada, N., Asano, T., Nishiuchi, T., Iwamuro, Y., Chinaka, S., Matsugo, S., Sakamoto, T.@Characterization of the chemical diversity of glycosylated mycosporine-like amino acids in the terrestrial cyanobacterium Nostoc commune.@J. Photochem. Photobiol. B-Biol.,@142,@154-168.@2015@@@NIES-2538@NIES2538@NIES-3989@NIES3989
2899@Yoshida, T., Sakamoto, T.@Water-stress induced trehalose accumulation and control of trehalase in the cyanobacterium Nostoc punctiforme IAM M-15.@J. Gen. Appl. Microbiol.,@55,@135-145.@2009@@compatible solute, desiccation tolerance, post-translational regulation, terrestrial cyanobacterium@NIES-2108@NIES2108
2900@Tuji, A. & Niiyama, Y. @The identity and phylogeny of Pseudanabaena Strain, NIES-512, producing 2-methylisoborneol (2-MIB).@Bull. Natl. Mus. Nat. Sci., Ser. B,@42,@83-89.@2016@@2-MIB; Pseudanabaena foetida var. intermedia; Pseudanabaena foetida var. subfoetida; secondary structure@NIES-512@NIES512@NIES-4059@NIES4059
2901@Kang, Y-H., Kang, S-K., Park, C-S., Joo, J-H., Lee, J-W., Han, M-S.@Use of lactic acid bacteria as a biological agent against the cyanobacterium Anabaena flos-aquae.@J. Appl. Phycol.,@28,@1747-1757.@2016@@Lactic acidbacteria; Cyanobacteriacidalbacteria; Anabaena flos-aquae; Biological control@NIES-75@NIES75@NIES-298@NIES298@NIES-94@NIES94
2902@Yamagishi, T., Katsumata, M., Yamaguchi, H., Shimura, Y., Kawachi, M., Koshikawa, H., Horie, Y., Tatarazako, N.@Rapid ecotoxicological bioassay using delayed fluorescence in the marine cyanobacterium Cyanobium sp. (NIES-981).@Ecotoxicology,@25,@1751-1758.@2016@@Algal growth inhibition test; Cyanobium sp.; Delayed fluorescence; Marine cyanobacteria@NIES-981@NIES981
2903@Hirashima, T., Tajima, N., Sato, N.@Draft genome sequences of four species of Chlamydomonas containing phosphatidylcholine.@GenomeA,@4,@e01070-16 (article ID).@2016@@@NIES-2242@NIES2242@NIES-2202@NIES2202@NIES-2207@NIES2207@NIES-2212@NIES2212
2904@Wakisaka, Y., Suzuki, Y., Iwata, O., Nakashima, A., Ito, T., Hirose, M., Domon, R., Sugawara, M., Tsumura, N., Watarai, H., Shimobaba, T., Suzuki, K., Goda, K., Ozeki, Y.@Probing the metabolic heterogeneity of live Euglena gracilis with stimulated Raman scattering microscopy.@Nature Microbiology,@1,@16124 (article ID).@2016@@@NIES-48@NIES48
2905@Gross, W., Seipold, P., Schnarrenberger, C.@Characterization and purification of an aldose reductase from the acidophilic and thermophilic red alga Galdieria sulphuraria. @Plant Physiol.,@114,@231-216.@1997@@@NIES-3638@NIES3638
2906@Liu, X., Beyrend-Dur, D., Dur, G., Ban, S.@Effects of temperature on life history traits of Eodiaptomus japonicus (Copepoda: Calanoida) from Lake Biwa (Japan).@Limnology,@15,@85-97.@2014@@Life history traits; Temperature effects; Eodiaptomus japonicus; Copepod dynamics; Individual variability@NIES-282@NIES282@NIES-2235@NIES2235
2907@Hamaji, T., Mogi, Y., Ferris, P. J., Mori, T., Miyagishima, S., Kabeya, Y., Nishimura, Y., Toyoda, A., Noguchi, H., Fujiyama, A., Olson, B. J. S. C., Marriage, T. N., Nishii, I., Umen, J. G. Nozaki, H.@Sequence of the Gonium pectorale mating locus reveals a complex and dynamic history of changes in volvocine algal mating haplotypes.@G3-Genes Genomes Genet.,@6,@1179-1189.@2016@@Gonium; Chlamydomonas; Volvox; mating locus; evolution; Genetics of Sex@NIES-2863@NIES2863
2908@Yamazaki, T ., Owari, S., Ota, S., Sumiya, N., Yamamoto, M., Watanabe, K., Nagumo, T. , Miyamura, S., Kawano, S.@Localization and evolution of septins in algae.@Plant J.,@74,@605-614.@2013@@green algae; Marvania geminata; Nannochloris bacillaris; algal septins; septin phylogeny@NIES-4016@NIES4016
2909@Sumiya, N., Yamazaki, T., Owari, S., Yamamoto, M., Watanabe, K., Kawano, S.@Chloroplast division and differentially regulated expression of FtsZ1 and FtsZ2 in the synchronous culture of Nannochloris bacillaris (Chlorophyta, Trebouxiophyceae).@J. Phycol.,@77,@59-66.@2012@@Chloroplast division; Nannochloris bacillaris; FtsZ ring formation; FtsZ1; FtsZ2@NIES-4016@NIES4016
2910@Sumiya, N. , Hirata, A., Kawano, S.@Multiple FtsZ ring formation and reduplicated chloroplast DNA in Nannochloris bacillaris (Chlorophyta, Trebouxiophyceae) under phosphate-enriched culture.@J. Phycol.,@44,@1476-1489.@2008@@chloroplast division; chloroplast DNA replication; FtsZ ring; Nannochloris bacillaris; phosphate-enriched culture@NIES-4016@NIES4016
2911@Yamazaki, T., Yamamoto, M., Sakamoto, W., Kawano, S.@Isolation and molecular characterization of rbcS the unicellular green alga Nannochloris bacillaris (Chlorophyta, Trebouxiophyceae).@Phycol. Res.,@53,@67-76.@2005@@intron sliding; exon/intron structure; gene duplication; gene transfer; rbcS; ribulose-1, 5-bisphosphate carboxyase/oxygenase (Rubisco)@NIES-4016@NIES4016
2912@Guo, B., Lei, C., Ito, T., Jiang, Y., Ozeki, Y., Goda, K.@High-throughput accurate single-cell screening of Euglena gracilis with fluorescence-assisted optofluidic time-stretch microscopy.@PLoS One, @11,@e0166214 (article ID).@2016@@@NIES-48@NIES48
2913@Manali, KM., Arunraj, R., Kumar, T., Ramya, M.@Detection of microcystin producing cyanobacteria in Spirulina dietary supplements using multiplex HRM quantitative PCR.@J. Appl. Phycol.,@29,@1279-1286.@2017@@Microcystin; Arthrospira platensis; Multiplex HRM qPCR; Dietary supplements; Liquid; chromatography–high-resolution mass spectrometr@NIES-843@NIES843
2914@Arai, S., Takahashi, H. , Takano, H. , Sakai, A., Kawano, S.@Isolation, characterization, and chromosome mapping of an actin gene from the primitive green alga, Nannochloris bacillaris (Chlorophyceae).@J. Phycol.,@34,@477–485.@1998@@actin gene; actin localization; cell division; karyotype; Nannochloris bacillaris@NIES-4016@NIES4016
2915@Imai, I., Fujimaru, D., Nishigaki, T.@Co-culture of fish with macroalgae and associated bacteria: A possible mitigation strategy for noxious red tides in enclosed coastal sea.@Fish. Sci.,@68,@493-496.@2002@@red tide; mitigation; algicidal bacteria; macroalgae; co-culture of fish and macroalgae@NIES-1@NIES1
2916@Shirokawa, Y. & Shimada, M.@Cytoplasmic inheritance of parent-offspring cell structure in the clonal diatom Cyclotella meneghiniana.@Proc. R. Soc. B-Biol. Sci.,@B283,@20161632 (article ID).@2016@@centric diatom, cytoplasmic inheritance; non-genetic heritability; quantitative genetics; structural inheritance; rapid evolution@NIES-2364@NIES2364
2917@Zienkiewicz, M., Krupnik, T., Drożak, A., Golke, A., Romanowska, E.@Transformation of the Cyanidioschyzon merolae chloroplast genome: prospects for understanding chloroplast function in extreme environments.@Plant Mol. Biol.,@93,@171-183.@2017@@Stable chloroplast transformation; Cyanidioschyzon merolae; Chloramphenicol acetyltransferase; PEG; Biolistic bombardment@NIES-1332@NIES1332@NIES-4696@NIES4696
2918@Kunugi, M., Satoh. S., Ihara. K., Shibata. K., Yamagishi. Y., Kogame. K., Obokata. J., Takabayashi. A., Tanaka. A.@Evolution of green plants accompanied changes in light-harvesting systems.@Plant Cell Physiol.,@57,@1231-1243.@2016@@Evolution; Green algae; Land plants; Light adaptation; Photosystem@NIES-254@NIES254@NIES-1419@NIES1419@NIES-2541@NIES2541@NIES-2582@NIES2582
2919@Watanuki, T., Matsushita, K., Kato, K.@Response of Antarctic alga to salt stress, as measured by nuclear magnetic resonance spectroscopy.@Seibutsu-Butsuri,@33,@38-41 (in Japanese).@1993@@@NIES-3744@NIES3744
2920@Nozaki, H., Ueki, N., Isaka, N., Saigo, T., Yamamoto, K., Matsuzaki, R., Takahashi, F., Wakabayashi, K-I., Kawachi, M.@A new morphological type of Volvox from japanese large lakes and recent divergence of this type and V. ferrisii in two different freshwater habitats.@PLoS One, @11,@e0167148 (article ID).@2016@@@NIES-2736@NIES2736@NIES-2737@NIES2737@NIES-3987@NIES3987@NIES-3988@NIES3988@NIES-4021@NIES4021@NIES-4022@NIES4022@NIES-4023@NIES4023@NIES-4024@NIES4024@NIES-4025@NIES4025@NIES-4026@NIES4026@NIES-4027@NIES4027@NIES-4028@NIES4028
2921@Allewaert, C. C., Vanormelingen, P., Daveloose, I., Vyverman, T.@Intraspecific trait variation affecting astaxanthin productivity in two Haematococcus (Chlorophyceae) species.@Algal Res.,@21,@191-202.@2017@@Astaxanthin productivity; Haematococcus pluvialis; Haematococcus rubicundus; Functional traits; Common-garden experiment; Intraspecific variation@NIES-144@NIES144
2922@Liu, X., Syuhei, B.@Effects of acclimatization on metabolic plasticity of Eodiaptomus japonicus (Copepoda: Calanoida) determined using an optical oxygen meter.@J. Plankton Res.,@39,@111-121.@2017@@temperature acclimatization; metabolic rates; oxygen consumption rates; zooplankton; optical oxygen meter@NIES-282@NIES282@NIES-2235@NIES2235
2923@Sakami, T., Sakamoto, S., Takagi, S., Inaba, N., Imai, I.@Distribution of three algicidal Alteromonas sp. strains in seagrass beds and surrounding areas in the Seto Inland Sea, Japan.@Fish. Sci.,@83,@113-121.@2017@@Algicidal bacteria; Real-time polymerase; chain reaction; Zostera marina; Harmful algal bloom; Most probable number@NIES-1@NIES1
2924@Kiperstok, A. C., Sebestyén, P., Podola, B., Melkonian, M.@Biofilm cultivation of Haematococcus pluvialis enables a highly productive one-phase process for astaxanthin production using high light intensities.@Algal Res.,@21,@213-222.@2017@@Microalgae; Immobilized cultivation; Irradiation; Carbon dioxide; Twin-Layer; Carotenoid@NIES-144@NIES144
2925@Mano, H., Okamoto, S.@Preliminary ecological risk assessment of 10 PPCPs and their contributions to the toxicity of concentrated surface water on an algal species in the middle basin of Tama River.@J. Water Environ. Technol.,@14,@423-436.@2016@@bioassay; environmental risk; hazard quotien@NIES-35@NIES35
2926@Sumiya, N., Fujiwara, T., Era, A., Miyagishima, SY.@Chloroplast division checkpoint in eukaryotic algae.@Proc. Natl. Acad. Sci. U. S. A.,@113,@E7629-E7638 (article ID).@2016@@chloroplast division; algal cell cycle; Cyanidioschyzon merolae; Cyanophora paradoxa@NIES-3377@NIES3377@NIES-547@NIES547
2927@Yamashita, S., Arakaki, Y., Kawai-Toyooka, H., Noga, A., Hirono, M., Nozaki, H.@Alternative evolution of a spheroidal colony in volvocine algae: developmental analysis of embryogenesis in Astrephomene (Volvocales, Chlorophyta).@BMC Evol. Biol.,@16,@243 (article ID).@2016@@@NIES-4017@NIES4017@NIES-4018@NIES4018
2928@Pelusi, A., Hanawa, Y., Araie, H., Suzuki, I., Giordan, M., Shiraiwa, Y.@Rapid detection and quantification of haptophyte alkenones by Fourier transform infrared spectroscopy (FTIR).@Algal Res.,@19,@48-56.@2016@@Alkenones; Alkenone-producing haptophyte; Emiliania huxleyi; FTIR; Lipid;trans-Carbon-carbon double bond@NIES-837@NIES837
2929@Merola, A., Castaldo, R., De Luca, P., Gambardella, R., Musacchio, A., Taddei, R.@Revision of Cyanidium caldarium. Three species of acidophilic algae.@Giorn Bot. Ital.,@115,@189-195.@1981@@@NIES-550@NIES550
2930@Sato, N., Mori, N., Hirashima, T., Moriyama, T.@Diverse pathways of phosphatidylcholine biosynthesis in algae as estimated by labeling studies and genomic sequence analysis.@Plant J.,@87,@281–292.@2016@@Chlamydomonas; Cyanidioschyzon merolae; phosphatidylcholine biosynthesis; phosphatidylethanolamine methyltransferase; phosphoethanolamine methyltransferase@NIES-2242@NIES2242@NIES-2207@NIES2207
2931@Motwalli, O., Essack, M., Jankovic, BR., Ji, B., Liu, X., Ansari, HR., Hoehndorf, R., Gao, X., Arold, ST., Mineta, K., Archer, JA., Gojobori, T., Mijakovic, I., Bajic, VB.@In silico screening for candidate chassis strains of free fatty acid-producing cyanobacteria.@BMC Genomics,@18,@33 (article ID).@2017@@Cyanobacteria; Free fatty acids; Biofuel; Screening method; Cell factories; Bioinformatics; Optimization; Computer science@NIES-39@NIES39
2932@Nakada, T., Ito, T., Tomita, M.@18S ribosomal RNA gene phylogeny of a colonial volvocalean lineage (Tetrabanaceae-Goniaceae-Volvocaceae, Volvocales, Chlorophyceae) and its close relatives.@J. Jpn. Bot., @91,@345-354.@2016@@18S rRNA; colonial; green algae; molecular phylogeny; unicellular; Volvocales@NIES-456@NIES456@NIES-571@NIES571@NIES-883@NIES883@NIES-2242@NIES2242@NIES-474@NIES474@NIES-1362@NIES1362@NIES-544@NIES544@NIES-545@NIES545@NIES-666@NIES666@NIES-541@NIES541@NIES-867@NIES867@NIES-877@NIES877@NIES-880@NIES880@NIES-2246@NIES2246@NIES-2266@NIES2266@NIES-564@NIES564@NIES-566@NIES566@NIES-881@NIES881@NIES-460@NIES460@NIES-4126@NIES4126@NIES-3388@NIES3388@NIES-721@NIES721@NIES-737@NIES737@NIES-725@NIES725@NIES-879@NIES879@NIES-735@NIES735@NIES-882@NIES882@NIES-654@NIES654@NIES-2567@NIES2567@NIES-418@NIES418@NIES-728@NIES728
2933@Shibakami, M. & Sohma, M.@Synthesis and thermal properties of paramylon mixed esters and optical, mechanical, and crystal properties of their hot-pressed films.@Carbohydr. Polym.,@155,@416-424.@2017@@Paramylon; β-1,3-glucan; Thermoplastic; Acylation; Euglena@NIES-48@NIES48
2934@Hamana, K., Furuchi, T., Nakamura, T., Hayashi, H., Niitsu, M.@Occurrence of penta-amines, hexa-amines and N-methylated polyamines in unicellular eukaryotic organisms belonging to the phyla Heterokontophyta and Labyrinthulomycota of the subdomain Stramenopiles.@J. Gen. Appl. Microbiol.,@62,@320-325.@2017@@Bioaccumulation; clam Corbicula leana; cyanotoxins; elimination; Microcystis@NIES-2535@NIES2535
2935@Luu, P. T., Son, D. T., Utsumi, M.@Accumulation and elimination of Microcystins in freshwater clam Corbicula leana under laboratory conditions, assessment of risks to humans.@J. Biotechnol.,@14,@1-10.@2016@@alga; heterokontophyte; hexa-amine; labyrinthulomycete; methylated polyamine; penta-amine@NIES-800@NIES800@NIES-1086@NIES1086@NIES-101@NIES101
2936@Harke, M. J., Jankowiak, J. G., Morrell, B. K., Gobler, C. J.@Transcriptomic responses in the bloom-forming cyanobacterium Microcystis 2 induced during exposure to zooplankton.@Appl. Environ. Microbiol.,@83,@e02832-16 (article ID).@2017@@microcystis; RNA-Seq; transcriptome; grazing@NIES-843@NIES843
2937@Tomita, Y., Yoshioka, K., Iijima, H., Nakashima, A., Iwata, O., Suzuki, K., Hasunuma, T., Kondo, A., Yokota-Hirai, M., Osanai, T.@Succinate and lactate production from Euglena gracilis during dark, anaerobic conditions.@Front. Microbiol.,@7,@2050 (article ID).@2016@@biorefinery; Euglena; lactate; microalgae; succinate@NIES-48@NIES48
2938@Suzuki, N., Sanada, T., Terashima, C., Suzuki, T., Arai, T., Saitou, S., Kawashima, T., Mizutani, A., Saitou, T., Nakata, K., Katsumata, K., Kondo, T., Yuasa, M., Fujishima, A.@Systematic studies of TiO₂-based photocatalysts anti-algal effects on Chlorella vulgaris.@J. Appl. Electrochem.,@47,@197-203.@2017@@Titanium dioxide; Photocatalyst; Anti-algal effect; Hydrogen peroxide@NIES-227@NIES227
2939@Anas, A. R. J., Nakajima, A., Naruse, C., Tone, M., Asukabe, H., Harada, K.@Determination of fVIIa-sTF inhibitors in toxic Microcystis cyanobacteria by LC-MS technique.@Mar. Drugs,@14,@7 (article ID).@2016@@cyanobacteria; toxic Microcystis; anticoagulant; fVIIa-sTF inhibitors; peptides; aeruginosins; blood coagulation cascade@NIES-107@NIES107@NIES-1025@NIES1025@NIES-1058@NIES1058@NIES-1133@NIES1133@NIES-89@NIES89@NIES-1043@NIES1043@NIES-1071@NIES1071@NIES-1099@NIES1099@NIES-1085@NIES1085@NIES-102@NIES102@NIES-298@NIES298@NIES-103@NIES103
2940@Utsunomiya, A., Watanuki, T., Matsushita, K., Tomita, I@Toxic effects of linear alkylbenzene sulfonate, quaternaryalkylammonium chloride and their complexes on Dunaliella sp. and Chlorella pyrenoidosa.@Environ. Toxicol. Chem.,@16,@1247-1254.@1997@Medium (Modified Johnson's medium)@Linear alkylbenzene sulfonate; Cationic surfactant; Complex Dunaliella Chlorella@NIES-3744@NIES3744
2941@Utsunomiya, A., Watanuki, T., Matsushita, K., Nishina, M., Tomita, I@Assessment of the toxicity of linear alkylbenzene sulfonate and quaternary alkylammonium chloride by measuring ¹³C-glycerol in Dunaliella sp.@Chemosphere,@35,@2479-2490.@1997@@Surfactant; Toxicity; LAS; Quaternary ammonium chloride; Glycerol; ¹³C-glycerol; Dunaliella sp; ¹³C-NMR; EC50-24h@NIES-3744@NIES3744
2942@Watanuki, T.@Isolation and culture of Antarctic diatoms from the saline lakes in the Soya coast, east Antarctica.@Memoirs of National Institute of Polar Research,@Special issue 11,@35-41.@1979@@@NIES-3744@NIES3744
2943@Zhu, T., Hou, S., Lu, X., Hess, W. R.@Draft genome sequences of nine cyanobacterial strains from diverse habitats.@GenomeA,@5,@e01676-16 (article ID).@2017@@@NIES-592@NIES592@NIES-593@NIES593@NIES-2130@NIES2130@NIES-208@NIES208@NIES-1031@NIES1031@NIES-30@NIES30@NIES-2101@NIES2101@NIES-2119@NIES2119
2944@Watanuki, T., Ohno, M., Nakamura, S.@Growth characteristics of Dunaliella sp., unicellular green alga isolated from a salt lake along the coastal region of Lüetzow-Holm bay, Antarctica.@Rep. Usa mar. biol. Inst., Kouchi Univ.,@9,@139-147.@1987@@Dunaliella sp.; Green algae; Saline lake; Antarctica@NIES-3744@NIES3744
2945@Watanuki, T.@Organisms as measured by nuclear magnetic resonance spectrometer.@Bull. Kanagawa P. H. Lab.,@28,@1-15 (in Japanese). @1998@@¹H-NMR; ¹³C-NMR; ³¹P-NMR; ¹³⁷Cs-NMR@NIES-3744@NIES3744
2946@Watanuki, T., Iijima, I., Matsushita, K., Nishina, M., Sumiya, K., Kato, K.@Incorporation of ¹³C labelled carbon into glycerol in the halotolerant alga Dunaliella.@JSMRM,@7,@109-112 (in Japanese).@1996@@halotolerant species; ¹³C-enriched sodium bicarbonate; glycerol@NIES-3744@NIES3744
2947@Watanuki, T.@Response to salt stress of Antarctic Dunaliella, as measured by nuclear magnetic resonance spectroscopy.@JSMRM,@5,@118-120 (in Japanese).@1994@@antarctic; Dunaliella; high salt lake; salt stress; NMR; glycerol@NIES-3744@NIES3744
2948@Hamana, K., Furuchi, T., Hayashi, H., Niitsu, M.@Additional analysis of cyanobacterial polyamines ─ Distributions of spermidine, homospermidine, spermine, and thermospermine within the phylum Cyanobacteria. ─@Microb. Resour. Syst.,@32,@179-186.@2016@@cyanobacteria; homospermidine; polyamine; thermospermine@NIES-3373@NIES3373@NIES-2086@NIES2086@NIES-2087@NIES2087@NIES-2539@NIES2539@NIES-2412@NIES2412@NIES-2134@NIES2134
2949@Tadama, S. & Shiraishi, H.@Growth of the edible microalga Arthrospira platensis in relation to boron supply.@International Journal of GEOMATE,@12,@90-95.@2017@@Cyanobacteria; Spirulina; Arthrospira platensis; Boron, H-resorcinol@NIES-39@NIES39
2950@Watanabe, S. & Lewis, L. A.@Phylogenetic interpretation of light and electron microscopic features of selected members of the phylogroup Moewusinia (Chlorophyceae), with new generic taxonomy.@Phycologia,@56,@329-353.@2017@@Alvikia; Ancestral state reconstruction; Chlamydomonas moewusii; Chlorococcum; Eubrownia; Moewusinia; Parachlorococcum; Spongiococcum; Tetracystis@NIES-155@NIES155
2951@Misumi, M., Katoh, H., Tomo, T., Sonoike, K.@Relationship between photochemical quenching and non-photochemical quenching in six species of cyanobacteria reveals species difference in redox state and species commonality in energy dissipation.@Plant Cell,@57,@1510-1517.@2016@@Chlorophyll fluorescence measurements; Cyanobacteria; Photochemical quenching; Respiration; State transition; Thermal dissipation@NIES-39@NIES39
2952@Inamura, E., Katayama, T., Taguchi, S.@Absorption of low-dose ultraviolet radiation by mycosporine-like amino acids induced by the dinoflagellate Prorocentrum micans.@Plankton Benthos Res.,@12,@15-24.@2017@@mycosporine-glycine; palythene; palythine; porphyra-334; shinorine@NIES-218@NIES218
2953@Satjarak, A. & Graham, L. E.@Comparative DNA sequence analyses of Pyramimonas parkeae (Prasinophyceae) chloroplast genomes.@J. Phycol.,@53,@415-424.@2017@@chloroplast DNA variation; chloroplast genome; intraspecific variation; prasinophyte; Pyramimonas parkeae@NIES-254@NIES254
2954@Livingston, G., Fukumori, K., Provete, D. B., Kawachi, M., Takamura, N., Leibold, M. A.@Predators regulate prey species sorting and spatialdistribution in microbial landscapes.@J. Anim. Ecol.,@86,@501-510.@2017@@bacteria; colonization; dispersal; disturbance; protists; spatial pattern; variation partitioning@NIES-2239@NIES2239
2955@Shimura, Y., Hirose, Y., Misawa, N., Wakazuki, S., Fujisawa, T., Nakamura, Y., Kanesaki, Y., Yamaguchi, H., Kawachi, M.@Complete genome sequence of coastal cyanobacterium Synechococcus sp. strain NIES-970.@GenomeA,@5,@e00139-17 (article ID).@2017@@@NIES-970@NIES970
2956@Misumi, M. & Sonoike, K.@Characterization of the influence of chlororespiration on the regulation of photosynthesis in the glaucophyte Cyanophora paradoxa.@Sci. Rep.,@7,@46100 (article ID).@2017@@@NIES-547@NIES547
2957@Hayashi, T., Otaki, R., Hirai, K., Tsuzuki, M., Sato, N.@Optimization of seawater-based triacylglycerol accumulation in a freshwater green alga, Chlorella kessleri, through simultaneous imposition of loweredtemperature and enhanced-light intensity.@Algal Res.,@28,@100-107.@2017@@Chlorella kessleri; Freshwater green algae; Low temperature; Moderate light; Seawater; Triacylglycerol@NIES-2152@NIES2152
2958@Takeya, M., Hirai, M. Y., Osanai, T.@Allosteric inhibition of phosphoenolpyruvate carboxylases is determined by a single amino acid eesidue in cyanobacteria.@Sci Rep.,@7,@41080 (article ID).@2017@@@NIES-3756@NIES3756
2959@Shimakawa, G., Matsuda, Y., Nakajima, K., Tamoi, M., Shigeoka, S., Miyake, C.@Diverse strategies of O₂ usage for preventing photo-oxidative damage under CO₂ limitation during algal photosynthesis.@Sci Rep.,@7,@41022 (article ID).@2017@@@NIES-48@NIES48
2960@Ueki, N., Matsunaga, S., Inouye, I., Hallmann, A.@How 5000 independent rowers coordinate their strokes in order to row into the sunlight: Phototaxis in the multicellular green alga Volvox.@BMC Biol., @8,@103 (article ID).@2010@@@NIES-4029@NIES4029
2961@Kobayashi, N. & Yukumoto, M.@Improvement of micro algae yield by culture condition optimization.@The 12th Conference on Biomass Science,@@145-146 (in Japanese with English summary).@2017@@@NIES-96@NIES96
2962@Hamasaki, A.@Study of the optimal cultivation for micro-algae.@The 12th Conference on Biomass Science,@@27-28 (in Japanese with English summary).@2017@@@NIES-226@NIES226
2963@Nobusawa, T., Hori, K., Mori, H., Kurokawa, K., Ohta, H.@Differently localized lysophosphatidic acid acyltransferasescrucial for triacylglycerol biosynthesis in the oleaginous alga Nannochloropsis.@Plant J.,@90,@547–559.@2017@@Nannochloropsis; triacylglycerol (TAG); biofuels; lysophosphatidic acid acyltransferase (LPAT); lipid droplets@NIES-2145@NIES2145
2964@Guo, B., Lei, C., Ito, T., Yaxiaer, Y., Kobayashi, H., Jiang, Y., Tanaka, Y., Ozeki, Y., Goda, K.@High-throughput label-free screening of Euglena gracilis with optofluidic time-stretch quantitative phase microscopy.@Proc. of SPIE,@10076@@2017@@high-throughput screening; biofuel; Euglena gracilis; global warming; microfluidics; optofluidics; single-cell analysis; quantitative phase microscopy@NIES-48@NIES48
2965@Imanishi, S. Y., Nakayama, T., Asukabe, H., Harada, K.@Application of MALDI Biotyper to cyanobacterial profiling.@Rapid Commun. Mass Spectrom.,@31,@325-332.@2017@@@NIES-107@NIES107@NIES-112@NIES112@NIES-611@NIES611@NIES-808@NIES808@NIES-809@NIES809@NIES-835@NIES835@NIES-1025@NIES1025@NIES-1058@NIES1058@NIES-1642@NIES1642@NIES-1652@NIES1652@NIES-1672@NIES1672@NIES-843@NIES843@NIES-89@NIES89@NIES-73@NIES73@NIES-989@NIES989@NIES-1043@NIES1043@NIES-1071@NIES1071@NIES-1099@NIES1099@NIES-102@NIES102@NIES-298@NIES298@NIES-103@NIES103
2966@Hirato, Y., Goto, M., Tokuhisa, M., Tanigawa, M., Nishimura, K.@Crystallization and X-ray analysis of D-threonine aldolase from Chlamydomonas reinhardtii.@Acta Crystallogr. F-Struct. Biol.,@F73,@86-89.@2017@@D-threonine aldolase; Chlamydomonas reinhardtii; D-amino acids; crystallization@NIES-2237@NIES2237
2967@Nakada, T. & Tomita, M.@Morphology and phylogeny of a new wall‐less freshwater volvocalean flagellate, Hapalochloris nozakii gen. et sp. nov. (Volvocales, Chlorophyceae).@J. Phycol.,@53,@108-117.@2017@@cell wall; contractile vacuoles; Hapalochloris nozakii gen. et sp. nov.; mitochondria; molecular phylogeny; morphology; new species; taxonomy; Volvocale@NIES-2254@NIES2254@NIES-3760@NIES3760@NIES-3705@NIES3705@NIES-3761@NIES3761@NIES-3762@NIES3762@NIES-3763@NIES3763@NIES-2320@NIES2320
2968@Hirashima, T., Toyoshima, M., Moriyama, T., Nakamura, Y., Sato, N.@Characterization of phosphoethanolamine-N-methyltransferases in green algae.@Biochem. Biophys. Res. Commun., @488,@141-146.@2017@@Green algal evolution; Chlamydomonas; Phosphatidylcholine biosynthesis; Phosphoethanolamine-N-methyltransferase@NIES-2242@NIES2242@NIES-2235@NIES2235@NIES-2202@NIES2202@NIES-2207@NIES2207@NIES-2212@NIES2212
2969@Nagai, T.@Predicting herbicide mixture effects on multiple algal species using mixture toxicity models.@Environ. Toxicol. Chem.,@36,@2624-2630.@2017@@Pesticide; Species sensitivity distribution; Mixture toxicology; Algae; Mode of action@NIES-797@NIES797@NIES-512@NIES512@NIES-487@NIES487@NIES-71@NIES71
2970@Kimura, Y., Tomita-Yokotani, K., Katho, H., Sato, S., Ohmori, M.@Complete life cycle and heat tolerance of dry colonies of a terrestrial cyanobacterium, Nostoc sp. HK-01.@Biological Sciences in Space,@31,@1-8.@2017@@compatible solute; cyanobacteria; extracellular polysaccharides; heat tolerance; life cycle of cell; Nostoc sp. HK-01@NIES-2109@NIES2109
2971@Kimura, K. & Tomaru, Y.@Effects of temperature and salinity on diatom cell lysis by DNA and RNA viruses.@Aquat. Microb. Ecol.,@79,@79-83.@2017@@Water temperature; Water salinity; Host-virus interactions; Diatom lysis@NIES-3714@NIES3714@NIES-3716@NIES3716
2972@Yamagishi, T., Yamaguchi, H., Suzuki, S., Horie, Y., Tatarazako, N.@Cell reproductive patterns in the green alga Pseudokirchneriella subcapitata (=Selenastrum capricornutum) and their variations under exposure to the typical toxicants potassium dichromate and 3,5-DCP.@PLoS One, @12,@e0171259 (article ID).@2017@@@NIES-35@NIES35
2973@Xuan, H., Dai, X., Li, J., Zhang, X., Yang, C., Luo, F.@A Bacillus sp. strain with antagonistic activity against Fusarium graminearum kills Microcystis aeruginosa selectively.@Sci. Total Environ., @583,@214-221.@2017@@Harmful algal blooms; Algicidal activity; Antagonism; Bifunctional biocontrol agent@NIES-44@NIES44@NIES-843@NIES843@NIES-90@NIES90
2974@Yamagishi, T., Horie, Y., Tatarazako, N.@Synergism between macrolide antibiotics and the azole fungicide ketoconazole in growth inhibition testing of the green alga Pseudokirchneriella subcapitata.@Chemosphere,@174,@1-7.@2017@@Azole fungicide; Clarithromycin; Erythromycin; Isobologram; Ketoconazole; Pseudokirchneriella subcapitata@NIES-35@NIES35
2975@Khanam, MR., Shimasaki, Y., Hosain, MZ., Mukai, K., Tsuyama, M., Qiu, X., Tasmin, R., Goto, H., Oshima, Y.@Diuron causes sinking retardation and physiochemical alteration in marine diatoms Thalassiosira pseudonana and Skeletonema marinoi-dohrnii complex.@Chemosphere,@175,@200-209.@2017@@Sinking rate; Thalassiosira pseudonana; Skeletonema marinoi-dohrnii complex; Diuron@NIES-324@NIES324
2976@Honda, R., Teraokab, Y., Noguchia, M., Yang, S.@Optimization of hydraulic retention time and biomass concentration in microalgae biomass production from treated sewage with a membrane photobioreactor.@J. Water Environ. Technol.,@15,@1-11.@2017@@membrane photobioreactor; microalgae; resource recovery from wastewater@NIES-2170@NIES2170
2977@Sekimoto, H.@Sexual reproduction and sex determination in green algae.@J. Plant Res.,@130,@423-431.@2017@@Closterium; Chlamydomonas; Sexual reproduction; Sex determination@NIES-68@NIES68@NIES-67@NIES67
2978@Kohira, M., Matsumoto, T., Yamada, Y., Nanba, N., Kado, R.@Effects of hydrogen peroxide on phytoplanktons, seaweed gametophytes, marine harpacticoid copepod and striped barnacle larvae.@Sessile Organisms,@34,@1-12 (in Japanese with English summary).@2017@@hydrogen peroxide; marine ecotoxicity; seaweed gametophytes; phytoplankton; zooplankton@NIES-235@NIES235@NIES-324@NIES324@NIES-586@NIES586@NIES-1375@NIES1375@NIES-1429@NIES1429
2979@Yamada, M., Otsubo, M., Tsutsumi, Y., Mizota, C., Nakamura, Y., Takahashi, K., Iwataki M.@Utility of mitochondrial-encoded cytochrome c oxidase I gene for phylogenetic analysis and species identification of the planktonic diatom genus Skeletonema.@Phycol. Res.,@65,@217-225.@2017@@cox1; genetic marker; LSU rDNA; phylogenetictree; species delimitation; SSU rDNA@NIES-223@NIES223@NIES-2837@NIES2837@NIES-2838@NIES2838@NIES-2842@NIES2842@NIES-16@NIES16
2980@Reichert,M., Bergmann,S. M., Hwang, J., Buchholz, R., Lindenberger, C.@Antiviral activity of exopolysaccharides from Arthrospira platensis against koi herpesvirus.@J. Fish Dis.,@40,@1441–1450.@2017@@antiviral substances; exopolysaccharides; KHVD; koi herpesvirus@NIES-39@NIES39
2981@Nozaki. H., Mahakham, W., Athibai, S., Yamamoto, K., Takusagawa, M., Misumi, O., Herron, M. D., Rosenzweig, F., Kawachi, M.@Rediscovery of the species of ‘ancestral Volvox’: morphology and phylogenetic position of Pleodorina sphaerica (Volvocales, Chlorophyceae) from Thailand.@Phycologia,@56,@469-475.@2017@@Molecular phylogeny; Morphology; Pleodorina; Pleodorina sphaerica; Sexuality; Somatic cell; Volvox@NIES-4066@NIES4066@NIES-4067@NIES4067@NIES-4068@NIES4068@NIES-4069@NIES4069
2982@Ngoc, N.M.,　Inoue, Y., Yokota, K.@Ultrasonic extraction method for quantifying bioavailable phosphorus in particulate form.@J. Environ. Chem. Eng., @5,@2498-2507.@2017@@Particulate phosphorus; Ultrasonic extraction; NaOH extraction; Algal growth potential; Bioavailable phosphorus; Microcystis aeruginosa@NIES-44@NIES44
2983@Hamaji, T., Kawai-Toyooka, H., Toyoda, A., Minakuchi, Y., Suzuki, M., Fujiyama, A., Nozaki, H., Smith, D. R.@Multiple independent changes in mitochondrial genome conformation in chlamydomonadalean algae.@Genome Biol. Evol.,@9,@993-999.@2017@@Eudorina; linear mitochondrial DNA; telomere; Volvox; Yamagishiella@NIES-3984@NIES3984@NIES-3982@NIES3982
2984@Shiba, K. & Inaba, K.@Inverse relationship of Ca²⁺-dependent flagellar response between animal sperm and prasinophyte algae.@J. Plant Res.,@130,@465-473.@2017@@Calaxin; Cilia; Dynein; Opisthokont; Prasinophyte; Sperm flagella@NIES-626@NIES626
2985@Fujiwara, T., Ohnuma, M., Kuroiwa, T., Ohbayashi, R., Hirooka, S., Miyagishima, S-Y.@Development of a double nuclear gene-targeting method by two-step transformation based on a newly established chloramphenicol-selection system in the red alga Cyanidioschyzon merolae.@Front. Plant Sci.,@8,@e343 (article ID).@2017@@algae, plants; photosynthetic eukaryotes; genetic modification; multiple transformation; chloramphenicol; CAT selection marker@NIES-3377@NIES3377
2986@Hirato, Y., Tokuhisa, M., Tanigawa, M., Ashida, H., Tanaka, H., Nishimura, K.@Cloning and characterization of d-threonine aldolase from the green alga Chlamydomonas reinhardtii.@Phytochemistry,@135,@18-23.@2017@@Chlamydomonas reinhardtii; Chlamydomonadaceae; Green alga; Enzyme characterization; d-Amino acid; d-Threonine aldolase; Pyridoxal 5’-phosphate@NIES-2237@NIES2237
2987@Cheng, T., Zhang, W., Xhang, W., Yuan, G., Wang, H., Liu, T.@An oleaginous filamentous microalgae Tribonema minus exhibits high removing potential of industrial phenol contaminants.@Bioresour. Technol.,@238,@749-754.@2017@@Oleaginous filamentous microalgae; Phenol removal; Phenol-uptake capacity; Residual phenol@NIES-2175@NIES2175
2988@Guionet, A., Hosseini, B., Teissié, J., Akiyama, H., Hosseini, H.@A new mechanism for efficient hydrocarbon electro-extraction from Botryococcus braunii.@Biotechnol. Biofuels,@10,@39 (article ID).@2017@@Green energy; Biofuel; Hydrocarbon; Extraction; Botryococcus braunii kützing; Nanosecond pulsed electric field (nsPEF)@NIES-836@NIES836
2989@Yabuki, A., Tanifuji, G., Kusaka, C., Takishia, K., Fujikura, K.@Hyper-eccentric structural genes in the mitochondrial genome of the algal parasite Hemistasia phaeocysticola.@Genome Biol. Evol.,@8,@2870-2878.@2016@@gene fragmentation; RNA processing; mitochondrial genome; diplonemids; Euglenozoa@NIES-3356@NIES3356
2990@Pfaff, S., Borchhardt, N., Boy, J., Karsten, Ulf., Gustavs, L.@Desiccation tolerance and growth-temperature requirements of Coccomyxa (Trebouxiophyceae, Chlorophyta) strains from Antarctic biological soil crusts.@Algol. Stud.,@151/152,@3-19.@2016@@Antarctica; biological soil crusts; ecophysiology; desiccation; cold adaptation; endemis@NIES-2166@NIES2166
2991@Morita, M., Murayama, K., Komori, K., Minamiyama, M.@Evaluation of levofloxacin in chlorination by algal growth inhibition.@J. Environ. Chem.,@22,@183-192 (in Japanese with English summary).@2012@@hydrogen peroxide; marine ecotoxicity; seaweed gametophytes; phytoplankton; zooplankton@NIES-35@NIES35
2992@Muñoz-Gómez, S. A., Mejía-Franco, F. G., Durnin, K., Colp, M., Grisdale, D. J., Archibald, J. M., Slamovits, C. H.@The new red algal subphylum proteorhodophytina comprises the largest and most divergent plastid genomes known.@Curr. Biol.,@27,@1-8.@2017@@chloroplast; group II introns; insertion sequences; deep phylogeny; ptDNA; plastid genome; red algae; Rhodophyta; secondary plastids; transposases@NIES-2662@NIES2662@NIES-2742@NIES2742
2993@Iwamoto, K. & Shiraiwa, Y.@Accumulation of cesium by aquatic plants and algae.@In Impact of Cesium on Plants and the Environment, Eds. by Gupta, D. & Walther, C., Springer International Publishing,@@pp. 171-185.@2017@@Eustigmatophycean alga; Vacuoliviride crystalliferum; Fukushima 1st Nuclear Power Plant Accident; High cesium-accumulating microalgae; Phytoremediation; Radioactive cesium@NIES-2131@NIES2131@NIES-1458@NIES1458@NIES-329@NIES329@NIES-2352@NIES2352
2994@Niiyama, Y., Tuji, A., Takemoto, K., Ichise, S.@Pseudanabaena foetida sp. nov. and P. subfoetida sp. nov. (Cyanophyta/ Cyanobacteria) producing 2–methylisoborneol from Japan.@Fottea,@16,@1-11.@2016@@Lake Biwa; Lake Kasumigaura; 2–methylisoborneol (2–MIB); Phormidium tenue; Pseudanabaena foetida; Pseudanabaena subfoetida; Pseudanabaenaceae; PTB; PTG; 16S rRNA gene@NIES-4059@NIES4059
2995@Van Wichelen, J., Van Gremberghe, I., Vanormelingen, P., Debeer, A-E., Leporcq, B., Menzel, D., Codd, G. A., Descy, J-P., Vyverman, W.@Strong effects of amoebae grazing on the biomass and genetic structure of a Microcystis bloom (Cyanobacteria).@Environ. Microbiol.,@12,@2797-2813.@2010@@@NIES-3722@NIES3722@NIES-3726@NIES3726@NIES-3730@NIES3730@NIES-3766@NIES3766
2996@Van Wichelen, J., D'hondt, S., Claeys, M., Vyverman, W., Berney, C., Bass, D., Vanormelingen, P.@A hotspot of amoebae diversity: 8 new naked amoebae associated with the planktonic bloom-forming cyanobacterium Microcystis.@Acta Protozool.,@55,@61-87.@2016@@Naked amoebae; Microcystis; morphology; 18S rDNA; harmful algal blooms; grazing; Europe@NIES-3722@NIES3722@NIES-3723@NIES3723@NIES-3725@NIES3725@NIES-3726@NIES3726@NIES-3729@NIES3729@NIES-3766@NIES3766@NIES-3767@NIES3767@NIES-3730@NIES3730
2997@Grochau-Wright, Z. I., Hanschen, E. R., Ferris, P. J., Hamaji, T., Nozaki, H., Olson, B. J. S. C., Michod, R. E.@Genetic basis for soma is present in undifferentiated volvocine green algae.@J. Evol. Biol.,@30,@1205–1218@2017@@VARL domain; gene duplication; germ-soma differentiation; major transitions; multicellularity; volvocine algae@NIES-1861@NIES1861
2998@Steffen, M. M., Davis, T. W., McKay, R. M. L., Bullerjahn, G. S., Krausfeldt, L. E., Stough, J. M. A., Neitzey, M. L., Gilbert, N. E., Boyer, G. L., Johengen, T. H., Gossiaux, D. C., Burtner, A. M., Palladino, D., Rowe, M. D., Dick, G. J., Meyer, K. A., Levy, S., Boone, B. E., Stumpf, R. P., Wynne, T. T., Zimba, P. V., Gutierrez, D., Wilhelm, S. W.@Ecophysiological Examination of the Lake Erie Microcystis Bloom in 2014: Linkages between Biology and the Water Supply Shutdown of Toledo, OH.@Environ. Sci. Technol.,@51,@6745–6755.@2017@@@NIES-843@NIES843
2999@Ohtaka,K., Hori, K., Kanno, Y., Seo, M., Ohta, H.@Primitive Auxin Response without TIR1 and Aux/IAA in the Charophyte Alga Klebsormidium nitens.@Plant Physiol.,@174,@1621-1632.@2017@@@NIES-2285@NIES2285
3000@Bertuzz, S., Gustavs, L., Pandolfini, G., Tretiac, M.@Heat shock treatments for the control of lithobionts: A case study with epilithic green microalgae.@Int. Biodeterior. Biodegrad.,@123,@236-243.@2017@@Biocides; Biodeteriogens; Chlorophyll a fluorescence; Hydration; Polyols; Non-reducing sugars@NIES-2166@NIES2166
3001@Hayashida, G., Schneider, C., Espíndola, L., Arias, D., Riquelme, C., Wulff-Zottele, C., Díaz-Palma, P., Rivas, M.@Characterization of a Chlorophyta microalga isolated from a microbial mat in Salar de Atacama (northern Chile) as a potential source of compounds for biotechnological applications.@Phycol. Res.,@65,@202-211.@2017@@Altiplane; Chlorella sorokiniana; extreme tolerant; microalgae; microbial mat; oleaginous strain, polyunsaturated; fatty acid; stearic acid@NIES-2173@NIES2173
3002@Baresova, M., Pivokonsky, M., Novotna, K., Naceradska, J., Branyik, T.@An application of cellular organic matter to coagulation of cyanobacterial cells (Merismopedia tenuissima).@Water Res., @122,@70-77.@2017@@Algal cellular organic matter; Coagulation; Cyanobacterial cells; Merismopedia tenuissima; Water treatment@NIES-230@NIES230
3003@Lapsongpon, T., Leungprasert, S., Yoshimura, C.@Pre-chlorination contact time and the removal and control of Microcystis aeroginosa in coagulation.@7th International Conference on Environment and Industrial Innovation,@@012011 (article ID).@2017@@@NIES-843@NIES843
3004@Choi, Y. Y., Joun, J. M., Lee, J., Hong, M. E., Pham, H., Chang, W. S., Sim, S. J.@Development of large-scale and economic pH control system for outdoor cultivation of microalgae Haematococcus pluvialis using industrial flue.@Bioresour. Technol.,@244,@1235-1244.@2017@@Haematococcus pluvialis; Astaxanthin; Polymeric thin-film photobioreactor; Autotrophic buffer system; Flue gas@NIES-144@NIES144
3005@Niyommaneerat, W., Nakajima, F., Tobino, T., Yamamoto, K.@Development of a chronic sediment toxicity test using the benthic ostracod Heterocypris incongruens and their application to toxicity assessments of urban road dust.@Ecotox. Environ. Safe.,@143,@266-274.@2017@@Chronic sediment toxicity test; Heterocypris incongruens; Test repeatability; Reproduction; Urban road dust@NIES-94@NIES94
3006@Takeda, F., Minamiyama, M., Okamoto, S.@Seasonal variation in ability of wastewater treatment for reduction in biological effects evaluated based on algal growth.@J. Water Environ. Technol.,@15,@96-105.@2017@@pollutant release and transfer register (PRTR) information; Pseudokirchneriella subcapitata; toxicity identification evaluation (TIE); wastewater treatment; whole effluent toxicity (WET)@NIES-35@NIES35
3007@Kishi, M. & Toda, T.@Carbon fixation properties of three alkalihalophilic microalgal strains under high alkalinity.@J. Appl. Phycol.,@30,@401–410.@2018@@Algae; Cyanobacteria; Carbon dioxide; Alkalinity; Growth optimization@NIES-2257@NIES2257@NIES-39@NIES39
3008@Tomaru, Y., Toyoda, K., Kimura, K.@Occurrence of the planktonic bloom-forming marine diatom Chaetoceros tenuissimus Meunier and its infectious viruses in western Japan.@Hydrobiologia,@805,@221-230.@2018@@Algal viruses; Primary producers; Marine algae; Real-time quantitative PCR; Restingstage cells@NIES-3715@NIES3715@NIES-3714@NIES3714
3009@Nozue, S., Katayama, M., Terazima, M., Kumazaki, S.@Comparative study of thylakoid membranes in terminal heterocysts and vegetative cells from two cyanobacteria, Rivularia M-261 and Anabaena variabilis, by fluorescence and absorption spectral microscopy.@Biochim. Biophys. Acta-Bioenerg.,@1858,@742-749.@2017@@Cyanobacteria; Heterocyst; Thylakoid membrane; Anabaena variabilis; Rivularia; Spectroscopic microscopy@NIES-2095@NIES2095
3010@Yamamoto, K., Kawai-Toyooka, H., Hamaji, T., Tsuchikane, Y., Mori, T., Takahashi, F., Sekimoto, H., Ferris, P. J., Nozaki, H.@Molecular evolutionary analysis of a gender-limited MID ortholog from the homothallic species Volvox africanus with male and monoecious spheroids.@PLoS One, @12,@e0180313 (article ID).@2017@@@NIES-3782@NIES3782@NIES-3783@NIES3783@NIES-3780@NIES3780@NIES-3786@NIES3786@NIES-3986@NIES3986@NIES-4110@NIES4110@NIES-4111@NIES4111@NIES-3785@NIES3785
3011@Mitani, E., Nakayama, F., Matsuwaki, I., Ichi, I., Kawabata, A., Kawachi, M., Kato, M.@Fatty acid composition profiles of 235 strains of three microalgal divisions within the NIES Microbial Culture Collection.@Microb. Resour. Syst.,@33,@19-29.@2017@@Cryptophyta; docosahexaenoic acid; eicosapentaenoic acid; fatty acid; Haptophyta; Heterokontophyta; microalgae@NIES-388@NIES388@NIES-1340@NIES1340@NIES-3689@NIES3689@NIES-3691@NIES3691@NIES-3690@NIES3690@NIES-2844@NIES2844@NIES-1699@NIES1699@NIES-284@NIES284@NIES-698@NIES698@NIES-703@NIES703@NIES-715@NIES715@NIES-705@NIES705@NIES-1862@NIES1862@NIES-233@NIES233@NIES-234@NIES234@NIES-265@NIES265@NIES-275@NIES275@NIES-277@NIES277@NIES-278@NIES278@NIES-279@NIES279@NIES-280@NIES280@NIES-282@NIES282@NIES-324@NIES324@NIES-330@NIES330@NIES-333@NIES333@NIES-344@NIES344@NIES-346@NIES346@NIES-347@NIES347@NIES-350@NIES350@NIES-377@NIES377@NIES-395@NIES395@NIES-408@NIES408@NIES-409@NIES409@NIES-462@NIES462@NIES-466@NIES466@NIES-534@NIES534@NIES-548@NIES548@NIES-556@NIES556@NIES-560@NIES560@NIES-587@NIES587@NIES-588@NIES588@NIES-589@NIES589@NIES-590@NIES590@NIES-605@NIES605@NIES-623@NIES623@NIES-695@NIES695@NIES-701@NIES701@NIES-709@NIES709@NIES-710@NIES710@NIES-711@NIES711@NIES-713@NIES713@NIES-714@NIES714@NIES-741@NIES741@NIES-765@NIES765@NIES-766@NIES766@NIES-767@NIES767@NIES-805@NIES805@NIES-997@NIES997@NIES-1001@NIES1001@NIES-1002@NIES1002@NIES-1003@NIES1003@NIES-1004@NIES1004@NIES-1009@NIES1009@NIES-1011@NIES1011@NIES-1016@NIES1016@NIES-1017@NIES1017@NIES-1047@NIES1047@NIES-1302@NIES1302@NIES-1303@NIES1303@NIES-1324@NIES1324@NIES-1330@NIES1330@NIES-1339@NIES1339@NIES-1370@NIES1370@NIES-1376@NIES1376@NIES-1379@NIES1379@NIES-1383@NIES1383@NIES-1384@NIES1384@NIES-1385@NIES1385@NIES-1386@NIES1386@NIES-1387@NIES1387@NIES-1391@NIES1391@NIES-1393@NIES1393@NIES-1395@NIES1395@NIES-1398@NIES1398@NIES-1399@NIES1399@NIES-1400@NIES1400@NIES-1401@NIES1401@NIES-1700@NIES1700@NIES-1813@NIES1813@NIES-1815@NIES1815@NIES-1816@NIES1816@NIES-1826@NIES1826@NIES-1827@NIES1827@NIES-1831@NIES1831@NIES-1863@NIES1863@NIES-1864@NIES1864@NIES-1865@NIES1865@NIES-1874@NIES1874@NIES-1963@NIES1963@NIES-1964@NIES1964@NIES-1965@NIES1965@NIES-2143@NIES2143@NIES-2144@NIES2144@NIES-2147@NIES2147@NIES-2148@NIES2148@NIES-2300@NIES2300@NIES-2351@NIES2351@NIES-2369@NIES2369@NIES-2376@NIES2376@NIES-2506@NIES2506@NIES-2533@NIES2533@NIES-2534@NIES2534@NIES-2535@NIES2535@NIES-2536@NIES2536@NIES-2537@NIES2537@NIES-2633@NIES2633@NIES-2668@NIES2668@NIES-2689@NIES2689@NIES-2691@NIES2691@NIES-2696@NIES2696@NIES-2717@NIES2717@NIES-2718@NIES2718@NIES-2720@NIES2720@NIES-2723@NIES2723@NIES-2725@NIES2725@NIES-2726@NIES2726@NIES-2730@NIES2730@NIES-2731@NIES2731@NIES-2732@NIES2732@NIES-2770@NIES2770@NIES-2771@NIES2771@NIES-2772@NIES2772@NIES-2773@NIES2773@NIES-2840@NIES2840@NIES-2841@NIES2841@NIES-2842@NIES2842@NIES-2843@NIES2843@NIES-2859@NIES2859@NIES-2872@NIES2872@NIES-2878@NIES2878@NIES-2890@NIES2890@NIES-3391@NIES3391@NIES-225@NIES225@NIES-1045@NIES1045@NIES-1353@NIES1353@NIES-553@NIES553@NIES-2145@NIES2145@NIES-1005@NIES1005@NIES-1327@NIES1327@NIES-1730@NIES1730@NIES-2332@NIES2332@NIES-2716@NIES2716@NIES-223@NIES223@NIES-293@NIES293@NIES-1007@NIES1007@NIES-699@NIES699@NIES-2690@NIES2690@NIES-2839@NIES2839@NIES-17@NIES17@NIES-2693@NIES2693@NIES-2694@NIES2694@NIES-702@NIES702@NIES-8@NIES8@NIES-15@NIES15@NIES-323@NIES323@NIES-345@NIES345@NIES-1006@NIES1006@NIES-712@NIES712@NIES-562@NIES562@NIES-1392@NIES1392@NIES-2370@NIES2370@NIES-2697@NIES2697@NIES-353@NIES353@NIES-2590@NIES2590@NIES-1349@NIES1349@NIES-372@NIES372@NIES-407@NIES407@NIES-413@NIES413@NIES-414@NIES414@NIES-417@NIES417@NIES-2363@NIES2363@NIES-2364@NIES2364@NIES-2365@NIES2365@NIES-2722@NIES2722@NIES-461@NIES461@NIES-391@NIES391@NIES-2729@NIES2729@NIES-697@NIES697@NIES-700@NIES700@NIES-1375@NIES1375@NIES-2331@NIES2331@NIES-348@NIES348@NIES-281@NIES281@NIES-276@NIES276@NIES-1046@NIES1046@NIES-1@NIES1@NIES-837@NIES837@NIES-14@NIES14@NIES-1976@NIES1976@NIES-2142@NIES2142@NIES-716@NIES716@NIES-704@NIES704@NIES-706@NIES706@NIES-707@NIES707@NIES-115@NIES115@NIES-557@NIES557@NIES-558@NIES558@NIES-559@NIES559@NIES-603@NIES603@NIES-1974@NIES1974@NIES-1975@NIES1975@NIES-2707@NIES2707@NIES-1044@NIES1044@NIES-622@NIES622@NIES-708@NIES708@NIES-696@NIES696@NIES-487@NIES487@NIES-2899@NIES2899@NIES-274@NIES274@NIES-71@NIES71@NIES-9@NIES9
3012@Tsutsumi, N., Kikuchi, M., Sawai, J.@Development of algal growth inhibition test with saltwater alga Dunaliella sp. : Toxicity of 39 chemicals.@Jpn. J. Environ. Toxicol.,@18,@73-83 (in Japanese with English summary).@2015@@saltwater alga; Dunaliella; herbicide; toxicity; log P_ow, susceptibility@NIES-3744@NIES3744
3013@Ngoc, N.M.,　Yokota, K., James, M., Inoue, Y.@The estimation of bioavailable phosphorus in particulate forms by ultrasonic treatment.@J. Environ. Chem. Eng., @31,@492-497.@2017@@algal growth potential test; bioavailable phosphorus; Microcystis aeruginosa; particulate phosphorus; ultrasonic extraction@NIES-44@NIES44
3014@Tamura, I., Yasuda, Y., Kagota, K., Yoneda, S., Nakada, N., Vimal Kumar, V., Yutaka Kameda, Y., Kumiko Kimura, K., Norihisa Tatarazako, N., Hiroshi Yamamoto, H.@Contribution of pharmaceuticals and personal care products (PPCPs) to whole toxicity of water samples collected in effluent-dominated urban streams.@Ecotox. Environ. Safe.,@144,@338-350.@2017@@PPCPs; Anionic surfactant; Whole toxicity; Bioassay@NIES-35@NIES35
3015@Takenaka, S., Yoshikawa, T., Kadowaki, S., Okunishi, S., Maeda, H.@Microflora in the soft Ttissue of the pacific oyster Crassostrea gigas exposed to the harmful microalga Heterosigma akashiwo.@Biocontrol Science,@22,@79-87.@2017@@Pacific oyster; Heterosigma akashiwo; Filtraion rate; Intestinal microflora@NIES-5@NIES5
3016@Katsumata, M., Ikushima, Y., Bennett, K., Sato, Y., Takeuchi, A., Tatarazako, N., Hakamata, T.@Validation of rapid algal bioassay using delayed fluorescence in an interlaboratory ring study.@Sci. Total Environ., @605-606,@842-851.@2017@@Chemical toxicity test; Growth inhibition; Alga; Delayed fluorescence; Surrogate of biomass@NIES-35@NIES35
3017@Kerfeld, CA., Melnicki, MR., Sutter M., Dominguez-Martin, MA.@Structure, function and evolution of the cyanobacterial orange carotenoid protein and its homologs.@New Phytol., @215,@937-951.@2017@@carotenoids; carotenoproteins; cyanobacteria; nonphotochemical quenching; photoprotection; phylogenomics; protein structure; singlet oxygen (¹O₂) quenching@NIES-81@NIES81@NIES-843@NIES843@NIES-39@NIES39
3018@Fuchida, S.,Yokoyama, A., Fukuchi, R., Ishibashi, J., Kawagucci, S., Kawachi, M., Koshikawa, H.@Leaching of metals and metalloids from hydrothermal ore particulates and their effects on marine phytoplankton.@ACS Omega,@2,@3175–3182.@2017@@Geological materials; Microbiology; Separation science; Toxicology; Water pollution@NIES-324@NIES324
3019@Ohkubo, N., Tomaru, Y., Yamaguchi, H., Kitatsuji, S., Mochida, K.@Development of a method to assess the ichthyotoxicity of the harmful marine microalgae Karenia spp. using gill cell cultures from red sea bream (Pagrus major).@Fish Physiol. Biochem.,@43,@1603–1612.@2017@@@NIES-6@NIES6
3020@Silas, S., Makarova, KS., Shmakov, S., Páez-Espino, D., Mohr, G., Liu, Y., Davison, M., Roux, S.9, Krishnamurthy, SR., Fu, BXH., Hansen, LL., Wang, D., Sullivan, MB., Millard, A., Clokie, MR., Bhaya, D., Lambowitz, AM., Kyrpides, NC., Koonin, EV., Fire, AZ.@On the origin of reverse transcriptase using CRISPR-Cas systems and their hyperdiverse, enigmatic spacer repertoires.@mBio,@8,@e00897-17 (article ID).@2017@@CRISPR; RNA spacer acquisition; cyanobacteria; deep sequencing; horizontal gene transfer; host-parasite relationship; phylogeny; reverse transcriptase@NIES-39@NIES39
3021@Klemenčič, M., Funk, C.@Structural and functional diversity of caspase homologues in non-metazoan organisms.@Protoplasma,@255,@387-397.@2018@@@NIES-44@NIES44@NIES-843@NIES843@NIES-2549@NIES2549
3022@Mano, H., Takeda, F., Kitamura, T., Okamoto, S., Suzuki, Y., Park, CB., Yasui, N., Kobayashi, K., Tanaka, Y., Yamashita, N., Minamiyama, M.@Water quality comparison of secondary effluent and reclaimed water to ambient river water of southern Okinawa Island via biological evaluation.@Environ. Monit. Assess.,@189,@442 (article ID).@2017@@Bioassay; Ecological risk; Feasibility study; Water reclamation; Water reuse@NIES-35@NIES35
3023@Lu, Z., Zheng, L., Liu, J., Dai, J., Song, L.@A novel fed-batch strategy to boost cyst cells production based on the understanding of intracellular carbon and nitrogen metabolism in Haematococcus pluvialis.@Bioresour Technol.,@289,@121744 (article ID).@2019@@Haematococcus pluvialis; C/N metabolism; Astaxanthin biosynthesis; Series-gradient-fed strategy; Hyper-production@NIES-144@NIES144
3024@Yonamine, Y., Suzuki, Y., Ito, T., Miura, Y., Goda, K., Ozeki, Y., Hoshino, Y.@Monitoring photosynthetic activity in microalgal cells by Raman spectroscopy with deuterium oxide as a tracking probe.@ChemBioChem,@18,@2063–2068.@2017@@Biological activity; Deuterium; Metabolism; Photosynthesis; Raman spectroscopy@NIES-48@NIES48
3025@Wang, C., Wang, Z., Luo, F., Li, Y.@The augmented lipid productivity in an emerging oleaginous model alga Coccomyxa subellipsoidea by nitrogen manipulation strategy.@World J. Microbiol. Biotechnol.,@33,@160 (article ID).@2017@@Coccomyxa subellipsoidea; Nitrogen manipulation; Lipid; Fatty acids; Metabolites@NIES-2166@NIES2166
3026@Pengfei, J., Wang, H., Huang, W., Liu, W., Fan, Y., Miao, W.@The allelopathic effect and safety evaluation of 3,4-Dihydroxybenzalacetone on Microcystis aeruginosa.@Pest. Biochem. Physiol.,@147,@145-152.@2018@@Antibacterial; DBL; Phenolic acids; Microcystis aeruginosa; Environmental friendly@NIES-843@NIES843
3027@Huang, Y-T., Lai, C-W., Wu, B-W., Lin, K-S., Wu, J.C.S., Md Shahriar A Hossain, Yamauchi, Y., Wu, C.-W.@Advances in bioconversion of microalgae with high biomass and lipid productivity.@J. Taiwan Inst. Chem. Eng.,@79,@37-42.@2017@@Bioconversion; Fatty acid; methyl esters; Illumination; Microalgae@NIES-2199@NIES2199
3028@Kuroiwa, T., Ohnuma, M., Imoto, Y., Misumi, O., Nagata, N., Miyakawa, I., Fujishima, M., Yagisawa, F., Kuroiwa, H.@Genome size of the ultrasmall unicellular freshwater green alga, Medakamo hakoo 311, as determined by staining with 4′,6-diamidino-2-phenylindole after microwave oven treatments: II. Comparison with Cyanidioschyzon merolae, Saccharomyces cerevisiae (n, 2n), and Chlorella variabilis.@Cytologia, @81,@69-76.@2016@@Ultrasmall genome size; Medakamo hakoo; Saccharyomyces cerevisiae; Chlorella variabilis; DAPI staining; Microwave oven@NIES-3377@NIES3377@NIES-4000@NIES4000
3029@Shiratori, T., Fujita, S., Shimizu, T., Nakayama, T., Ishida, K-I.@Viridiuvalis adhaerens gen. et sp. nov., a novel colony-forming chlorarachniophyte.@J. Plant Res.,@130,@999–1012.@2017@@Chlorarachniophyceae; Chlorarachniophycota; Phylogeny; Taxonomy; Viridiuvalis adhaerens; Ultrastructure@NIES-4109@NIES4109
3030@Handa, S., Horiguchi, T., Ohmura, Y., Higuchi, M.@Rufusiella insignis (Gloeodiniaceae, Phytodiniales), an aerial Dinoflagellate newly found in Japan.@Hikobia,@16,@311-314 (in Japanese with English summary).@2013@@@NIES-4061@NIES4061
3031@Rickaby, R.E.M., Henderiks, J., Young, J.N.@Perturbing phytoplankton: Response and isotopic fractionation with changing carbonate chemistry in two coccolithophore species.@Clim. Past.,@6,@771-785.@2010@@@NIES-2696@NIES2696
3032@Kondo, R. & Okamura, T.@Growth and grazing kinetics of the facultative anaerobic nanoflagellate, Suigetsumonas clinomigrationis.@Microbes Environ.,@32,@80-83.@2017@@anaerobic flagellate; growth rate; ingestion rate; Lake Suigetsu@NIES-3647@NIES3647
3033@Sakamoto, B., Hokama, Y., Horgen, FD., Scheuer, PJ., Kan, Y., Nagai, H.@Isolation of a sulfoquinovosyl monoacylglycerol from Bryopsis sp. (Chlorophyta): identification of a factor causing a possible species-specific ecdysis response in Gambierdiscus toxicus (Dinophyceae).@J. Phycol.,@36,@924-931.@2000@@Bryopsis sp.; Ecdysis; Gambierdiscus toxicus; 1-O-palmitoyl-3-O-(6'-sulfo-a-d-quinovopyrano-syl)-sn-glycerol; Sulfoquinovosyl monoacylglycerols@NIES-615@NIES615@NIES-617@NIES617
3034@Tanaka, I., Matsuoka, S., Murata, M., Tachibana, K.@A new ceramide with a novel branched-chain fatty acid isolated from the epiphytic dinoflagellate Coolia monotis.@J. Nat. Prod.,@61,@685-688.@1998@@@NIES-615@NIES615
3035@Umetani, I., Kunugi, M., Yokono, M., Takabayashi, A., Tanaka, A.@Evidence of the supercomplex organization of photosystem II and light-harvesting complexes in Nannochloropsis granulata.@Photosynth. Res.,@136,@49-61.@2018@@Light-harvesting complex; Photosystem II; Nannochloropsis; CN–PAGE@NIES-2588@NIES2588
3036@Hoshina, R., Kobayashi, M., Suzaki, T., Kusuoka, Y.@Brandtia ciliaticola gen. et sp. nov. (Chlorellaceae, Trebouxiophyceae) a common symbiotic green coccoid of various ciliate species.@Phycol. Res.,@66,@76-81.@2018@@Chlorella; genus definition; rRNA structure@NIES-4032@NIES4032@NIES-4033@NIES4033@NIES-4034@NIES4034
3037@Hoshina, R. & Nakada, T.@Carolibrandtia nom. nov. as a replacement name for Brandtia Hoshina (Chlorellaceae, Trebouxiophyceae).@Phycol. Res.,@66,@82-83.@2018@@Chlorella-like alga; ciliate; later homonym; nomenclature; photobiont; symbiosis@NIES-4032@NIES4032@NIES-4033@NIES4033@NIES-4034@NIES4034
3038@Lopes dos Santos, A., Pollina, T., Gourvil, P., Corre, E., Marie, D., Garrido, J. L., Rodríguez, F., Noël, M.-H., Vaulot, D., Eikrem, W.@Chloropicophyceae, a new class of picophytoplanktonic prasinophytes.@Sci Rep,@7,@14019 (article ID).@2017@@@NIES-2755@NIES2755@NIES-3849@NIES3849@NIES-2758@NIES2758@NIES-3669@NIES3669@NIES-3835@NIES3835@NIES-2756@NIES2756@NIES-3667@NIES3667@NIES-3668@NIES3668@NIES-3670@NIES3670@NIES-3671@NIES3671
3039@Ota, S. & Kawano, S.@Extraction and Molybdenum Blue-based Quantification of Total Phosphate and Polyphosphate in Parachlorella.@Bio-protocol,@7,@e2539 (article ID).@2017@@Alga; Chlorella; Parachlorella; Phosphorus; Polyphosphate; Molybdenum blue reaction@NIES-2152@NIES2152
3040@Nogami, R., Nishida, H., Hong, D. D., Wakisaka, M.@Growth promotion effect of alginate oligosaccharides on Spirulina analyzed by repeated batch culture.@J. Jpn. Inst. Energy,@96,@352-356.@2017@@Alginate oligosaccharides; Anti-oxidation; Arthrospira (Spirulina) platensis; Growth promotion; Phycocyanin; Repeated batch culture@NIES-39@NIES39
3041@Mao, F., He, Y., Kushmaro, A., Gin, KY.@Effects of benzophenone-3 on the green alga Chlamydomonas reinhardtii and the cyanobacterium Microcystis aeruginosa.@Aquat. Toxicol.,@193,@1-8.@2017@@Benzophenone-3; Toxicity; Green algae; Cyanobacteria; Photosynthesis; Uptake@NIES-843@NIES843@NIES-2463@NIES2463
3042@Choi, YY., Hong, ME., Jin, ES., Woo, HM., Sim, SJ@Improvement in modular scalability of polymeric thin-film photobioreactor for autotrophic culturing of Haematococcus pluvialis using industrial flue gas.@Bioresour. Technol.,@249,@519-526.@2018@@Haematococcus pluvialis; Autotrophic; Bubble column photobioreactor; Scale-up; Hydrodynamic property@NIES-144@NIES144
3043@Kawai, S., Araki, S., Kodama, Y.@No mutual symbiosis following infection of algae-free Paramecium bursaria with symbiotic algae from Mayorella viridis.@Symbiosis,@75,@51-59.@2017@@Algae; Endosymbiosis; Mayorella viridis; Paramecium bursaria; Phalloidin@NIES-692@NIES692
3044@Ando, D., Fujisawa, T., Katagi, T.@Fate of flumioxazin in aquatic plants: Two algae (Pseudokirchneriella subcapitata, Synechococcus sp.), duckweed (Lemna sp.), and water milfoil (Myriophyllum elatinoides).@J. Agric. Food Chem.,@65,@8813-8822.@2017@@aquatic plants; conjugation; flumioxazin; metabolism; sediment exposure; water exposure@NIES-35@NIES35@NIES-937@NIES937
3045@Ishinishi, R., Matsuura, H., Tanaka, S., Nozawa, S., Tanada, K., Kawashita, N., Fujiyama, K., Miyasaka, H., Hirata, K.@Isolation and characterization of a stress-responsive gene encoding a CHRD domain-containing protein from a halotolerant green alga.@Gene,@640,@14-20.@2018@@Stress response; Chlamydomonas reinhardtii; Secretory protein; Recombinant protein; Unknown function@NIES-2235@NIES2235
3046@Arakaki, Y., Fujiwara, T., Kawai-Toyooka, H., Kawafune, K., Featherston, J., Durand, P. M., Miyagishima, S., Nozaki, H.@Evolution of cytokinesis-related protein localization during the emergence of multicellularity in volvocine green algae.@BMC Evol. Biol., @17,@243 (article ID).@2017@@Multicellularity; Volvocine algae; Tetrabaena socialis; DRP1@NIES-571@NIES571@NIES-4121@NIES4121
3047@Johansen, JR., Mareš, J., Pietrasiak, N., Bohunická, M., Zima, J Jr., Štenclová, L., Hauer, T.@Highly divergent 16S rRNA sequences in ribosomal operons of Scytonema hyalinum (Cyanobacteria).@PLoS One, @12,@e0186393 (article ID).@2017@@@NIES-2130@NIES2130@NIES-4073@NIES4073
3048@Zienkiewicz, M., Krupnik, T., Drożak, A., Wasilewska, W., Golke, A., Romanowska, E.@Deletion of psbQ’ gene in Cyanidioschyzon merolae reveals the function of extrinsic PsbQ’ in PSII.@Plant Mol. Biol.,@96,@135–149.@2018@@Stable red algae nuclear transformation; DTA toxin; Cyanidioschyzon merolae; Chloramphenicol; acetyltransferase; PEG; PsbQ’; PSII mutants; PSII extrinsic protein deletion@NIES-3377@NIES3377
3049@Kusui, T., Itatsu, Y., Jin, J.@Whole effluent toxicity assessment of industrial effluents.@In Toxicity and biodegradation testing, Eds. by Bidoia, E. D. & Montagnolli, R. N., Humana Press, New York, NY,@@pp. 331-347.@2017@@@NIES-35@NIES35
3050@Rekully, CM., Faulkner, ST., Lachenmyer, EM., Cunningham, BR., Shaw, TJ., Richardson, TL., Myrick, ML.@Fluorescence excitation spectroscopy for phytoplankton species classification using an all-pairs method: Characterization of a system with unexpectedly low rank.@Appl. Spectrosc.,@72,@442-462.@2017@@Chemometrics; classification; fluorescence; optical computing; optical filters; phytoplankton@NIES-704@NIES704
3051@Song, H., Wang, Q., Liu, X., Hu, Y., Long, J., Liu, G., Hu, Z.@Phylogenic diversity and taxonomic problems of the Dictyosphaerium morphotype within the Parachlorella clade (Chlorellaceae, Trebouxiophyceae).@J. Eucaryot. Microbiol.,@65,@382-391.@2018@@Coccoid green algae; ITS; molecular; morphology; SSU@NIES-453@NIES453
3052@Hirano, N., Marukawa, Y., Abe, J., Hashiba, S., Ichikawa, M., Tanabe, Y., Ito, M., Nishii, I., Tsuchikane, Y., Sekimoto, H.@A receptor-like kinase, related to cell wall sensor of higher plants, is required for sexual reproduction in the unicellular charophycean alga, Closterium peracerosum-strigosum-littorale complex.@Plant Cell Physiol.,@56,@1456-1462.@2015@@Cell wall; Charophycean alga; Closterium peracerosum–strigosum–littorale complex; CrRLK1L-1; Receptor-like kinase; Sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
3053@Delaux, P-M., Radhakrishnan, G.V., Jayaraman, D., Cheema, J., Malbreil, M., Volkening, J.D., Sekimoto, H., Nishiyama, T., Melkonian, M., Pokorny, L., Rothfels, C.J., Sederoff, H.W., Stevenson, D.W., Surek, B., Zhang, Y., Sussman, M.R., Dunand, C., Morris, R.J., Roux, C., Wong, G.K-S., Oldroyd, G.E.D., Ané, J-M.@Algal ancestor of land plants was preadapted for symbiosis.@Proc. Natl. Acad. Sci. U. S. A.,@112,@13390-13395@2015@@symbiosis; plant evolution; algae; plant–microbe interactions; phylogeny@NIES-67@NIES67
3054@Abe, J., Hori, S., Sato, M., Sekimoto, H.@Concanavalin A disrupts the release of fibrous material necessary for zygote formation of a unicellular charophycean alga, Closterium peracerosum-strigosum-littorale complex.@Front. Plant Sci.,@7,@1040 (article ID).@2016@@charophycean; Closterium; conjugation; gamete; Concanavalin A (Con A); sexual reproduction@NIES-68@NIES68@NIES-67@NIES67
3055@Kanda, N., Ichikawa, M., Ono, A., Toyoda, A., Fujiyama, A., Abe, J., Tsuchikane, Y., Nishiyama, T., Sekimoto, H.@CRISPR/Cas9-based knockouts reveal that CpRLP1 is a negative regulator of the sex pheromone PR-IP in the Closterium peracerosum-strigosum-littorale complex.@Sci Rep,@7,@17873 (article ID).@2017@@@NIES-68@NIES68@NIES-67@NIES67
3056@Ueki, N., Wakabayashi, K.@Detergent-extracted Volvox model exhibits an anterior–posterior gradient in flagellar Ca²⁺ sensitivity.@Proc. Natl. Acad. Sci. U. S. A.,@115,@E1061-E1068 (article ID).@2018@@flagella; calcium; phototaxis; Volvox@NIES-4029@NIES4029
3057@Yiu, S. K. F., Zhang, F. F., Au, D. W. T., Ho, K. C., Xu, S. J.@The tolerance of rabbitfish siganus oramin to the ichthyotoxic alga Chattonella marina.@J. Marine Biol. Aquacult.,@3,@1-4.@2017@@Chattonella marina; Siganus oramin; Harmful algae; Hypoxia; Rabbitfish@NIES-3@NIES3
3058@Gómez, F., Qiu, D., Lopes, R.M., Lin, S.@Fukuyoa paulensis gen. et sp. nov., a new genus for the globular species of the Dinoflagellate Gambierdiscus (Dinophyceae).@PLoS One, @10,@e0119676 (article ID).@2015@@@NIES-3451@NIES3451
3059@Hanschen, E. R., Herron, M. D., Wiens, J. J., Nozaki, H., Michod, R. E.@Repeated evolution and reversibilityof self-fertilization in the volvocinegreen algae.@Evolution,@72,@386-398.@2018@@Haploid; phylogenetics; self-fertilization; sex; sexual reproduction; volvocine green algae@NIES-456@NIES456@NIES-3782@NIES3782@NIES-578@NIES578@NIES-2457@NIES2457@NIES-653@NIES653@NIES-857@NIES857@NIES-891@NIES891@NIES-875@NIES875@NIES-571@NIES571@NIES-872@NIES872@NIES-883@NIES883@NIES-2569@NIES2569@NIES-3780@NIES3780@NIES-1362@NIES1362@NIES-544@NIES544@NIES-545@NIES545@NIES-541@NIES541@NIES-877@NIES877@NIES-880@NIES880@NIES-582@NIES582@NIES-458@NIES458@NIES-568@NIES568@NIES-856@NIES856@NIES-851@NIES851@NIES-564@NIES564@NIES-566@NIES566@NIES-572@NIES572@NIES-574@NIES574@NIES-892@NIES892@NIES-732@NIES732@NIES-460@NIES460@NIES-569@NIES569@NIES-876@NIES876@NIES-878@NIES878@NIES-3382@NIES3382@NIES-3388@NIES3388@NIES-1038@NIES1038@NIES-1711@NIES1711@NIES-1713@NIES1713@NIES-289@NIES289@NIES-882@NIES882@NIES-2738@NIES2738@NIES-418@NIES418@NIES-543@NIES543
3060@Lin, W., Zhao, D., Luo, J.@Distribution of alkaline phosphatase genes in cyanobacteria and the role of alkaline phosphatase on the acquisition of phosphorus from dissolved organic phosphorus for cyanobacterial growth.@J. Appl. Phycol.,@30,@839-850.@2018@@Alkaline; phosphatase; Cyanobacteria; Dissolved organic phosphorus; Distribution@NIES-81@NIES81@NIES-2549@NIES2549@NIES-2130@NIES2130@NIES-30@NIES30@NIES-39@NIES39@NIES-3756@NIES3756
3061@Li, WW., Xia, MS., Li, WB., Liu, LW., Yang, Y., Li, JH.@Characterization of a putative S-layer protein of a colonial Microcystis strain.@Curr. Microbiol., @75,@173-178.@2018@@@NIES-843@NIES843
3062@Antonaru, L. A., Nurnberg, D. J.@Role of PatS and cell type on the heterocyst spacing pattern in a filamentous branching cyanobacterium.@FEMS Mircobiol. Lett.,@364@fnx154 (article ID).@2017@@multicellularity; cyanobacteria; Stigonematales; cell differentiation; nitrogen fixation; heterocyst spacing pattern; PatS@NIES-592@NIES592@NIES-3754@NIES3754@NIES-3756@NIES3756
3063@Stough, JMA., Tang, X., Krausfeldt, LE., Steffen, MM., Gao, G., Boyer, GL., Wilhelm, SW@Molecular prediction of lytic vs lysogenic states for Microcystis phage: Metatranscriptomic evidence of lysogeny during large bloom events.@PLoS One, @12,@e0184146 (article ID).@2017@@@NIES-843@NIES843
3064@Zhang, C., Chen, G., Wang, Y., Guo, C., Zhou, J.@Physiological and molecular responses of Prorocentrum donghaiense to dissolved inorganic phosphorus limitation.@Mar. Pollut. Bull.,@129,@562-572.@2018@@Prorocentrum donghaiense; Dissolved inorganic phosphorus; Limitation; Suppression subtractive hybridization; Molecular response@NIES-144@NIES144
3065@Piligaeva, A.V., Sorokinaab, K.N., Shashkovab, M.V., Parmon, V.N.@Screening and comparative metabolic profiling of high lipid content microalgae strains for application in wastewater treatment.@Bioresour. Technol.,@250,@538-547.@2018@@Microalgae; Wastewater; Metabolic profiling; Lipid metabolism@NIES-2164@NIES2164@NIES-2280@NIES2280
3066@Mao, F., He, Y., Gin, KY.@Evaluating the joint toxicity of two benzophenone-type UV filters on the Ggreen alga Chlamydomonas reinhardtii with response surface methodology.@Toxics,@6,@8 (article ID).@2018@@Chlamydomonas reinhardtii; benzophenone-1; benzophenone-3; joint toxicity; response surface methodology@NIES-2463@NIES2463
3067@Hirashima, T., Toyoshima, M., Moriyama, T., Sato, N.@Evolution of the phosphatidylcholine biosynthesis pathways in green algae: Combinatorial diversity of methyltransferases.@J. Mol. Evol.,@86,@68-76.@2018@@Chlamydomonas; Metabolic diversity; Phosphatidylcholine biosynthesis; Phosphoethanolamine-N-methyltransferase; Phospholipid-N-methyltransferase@NIES-2242@NIES2242@NIES-2202@NIES2202@NIES-2207@NIES2207@NIES-2212@NIES2212
3068@Gómez-Lojero, C., Leyva-Castillo, L. E., Herrera-Salgado, P., Barrera-Rojas, J., Ríos-Castro, E., Gutiérrez-Cirlos, E. B.@Leptolyngbya CCM 4, a cyanobacterium with far-red photoacclimation from Cuatro Ciénegas Basin, México.@Photosynthetica,@56,@342–353.@2018@@chlorophyll f; Cuatro Ciénegas Basin; far-red light; photosynthesis; phycobilisomes.@NIES-30@NIES30
3069@Hoppenrath, M., Yubuki, N., Stern, R., Leander, B. S.@Ultrastructure and molecular phylogenetic position of a new marine sand-dwellin dinoflagellate from British Columbia, Canada: Pseudadenoides polypyrenoides sp. nov. (Dinophyceae).@Eur. J. Phycol.,@52,@208-224.@2017@@Clone libraries; depth gradient; microscopy; NGS library; oxyphotobacteriav; stromatolites; taxonomy@NIES-1367@NIES1367
3070@Temraleeva, A. D., Moskalenko, S. V., Bachura, Y. M.@Morphology, ecology, and 18S rDNA phylogeny of the green microalgal order Protosiphonales (Chlorophyceae, Chlorophyta).@Microbiology,@86,@159-169.@2017@@green microalgae; morphology; ecology; molecular phylogeny; polyphasic approach@NIES-2293@NIES2293
3071@Sandrini, G., Huisman, J., Matthijs, HC.@Potassium sensitivity differs among strains of the harmful cyanobacterium Microcystis and correlates with the presence of salt tolerance genes.@FEMS Mircobiol. Lett.,@362@fnx121 (article ID).@2015@@compatible solutes; cyanobacteria; harmful algal blooms; lake mitigation; microcystins; salt stress@NIES-843@NIES843
3072@Rueter, J. G., Ohki, K., Fujita,Y.@The effect of iron nutrition on photosynthesis and nitrogen fixation in cultures of Trichodesmium (cyanophyceae).@J. Phycol.,@26,@30-35.@1990@@@NIES-3600@NIES3600
3073@Ohki, K., Zehr, J. P., Fujita, Y.@Trichodesmium: Establishment of culture and characteristics of N₂-fixation.@In Marine Pelagic Cyanobacteria: Trichodesmium and other Diazotrophs, Eds. by Carpenter, E.J., Capone, D.G., Rueter, J.G., Springer, Dordrecht,@362,@pp. 307-318.@1992@@@NIES-3600@NIES3600
3074@Toyoda, K., Gishi, M., Ihara, I.@Effect of light quality and nutrients on growth of hydrocarbon-rich microalgae, Botryococcus braunii.@In ISHS Acta Horticulturae 907: VI International Symposium on Light in Horticulture,@@pp. 255-258.@2011@@growth rate; phosphate; nitrogen; turbidity; ATR-FTIR@NIES-836@NIES836
3075@Ohki, K., Falkowski, P.G., Rueter, J. G., Fujita, Y.@Experimental study of the marine cyanophyte Trichodesmium sp., a nitrogen-fixing phytoplankton in tropical and subtropical sea area.@In Marine biology: Its accomplishment and future prospect, Eds. by Mauchline, J., Nemoto, T., Hokusen-Sha,@@pp. 205-216.@1991@@@NIES-3600@NIES3600
3076@Mulholland, M.R., Shoemaker, C., Ohki, K., Capone, D.G.@Utilization of combined forms of N in cultures and populations of Trichodesmium spp..@In Marine cyanobacteria and related organisms, Eds. by Charpy, L., Larkum, Bulletin de l'Institut Oceanographique, Monaco, Special paper,@19,@pp. 279-286.@1999@@@NIES-3600@NIES3600
3077@Ohki, K.@A possible role of temperate phage in the regulation of Trichodesmium biomass.@In Marine cyanobacteria and related organisms, Eds. by Charpy, L., Larkum, Bulletin de l'Institut Oceanographique, Monaco, Special paper,@19,@pp. 287-292.@1999@@@NIES-3600@NIES3600
3078@Ohki, K. & Fujita, Y.@Light-dependent maintenance of active nitrogenase in the non-heterocystous cyanophyte Trichodesmium sp. NIBB10687.@In Research in photosynthesis, Ed. by Murata, N., Kluwer Academic Publishers,@IV,@pp. 103-106.@1992@@@NIES-3600@NIES3600
3079@Aikawa, S., Inokuma, K., Wakai, S., Sasaki, K., Ogino, C., Chang, J-S., Hasunuma, T., Kondo, A.@Direct and highly productive conversion of cyanobacteria Arthrospira platensis to ethanol with CaCl₂ addition.@Biotechnol. Biofuels,@11,@50 (article ID).@2018@@Ethanol conversion; Glycogen extraction; Cyanobacteria; Amylase-displaying yeast; Polysaccharide layer; Organic nutrient@NIES-39@NIES39
3080@Yoo, Y.D., Seong, K.A., Kima, H.S., Jeong, H.J., Yoon, E.Y., Park, J., Kim, J.I., Shin, W., Palenik, B.@Feeding and grazing impact by the bloom-forming euglenophyte Eutreptiella eupharyngea on marine eubacteria and cyanobacteria.@Harmful Algae,@73,@98-109.@2018@@Ecology; Food web; Algal bloom; Mixotrophy; Red tide; Synechococcus@NIES-381@NIES381
3081@Noguchi, M., Hashimoto, C., Honda, R., Teraoka, Y., Yang, S., Ninomiya, K., Takahashi, K.@Utilization of anaerobic digestion supernatant as a nutrient source in microalgal biomass production with a membrane photobioreactor.@J. Water Environ. Technol.,@15,@199-206.@2017@@anaerobic digestion supernatant; Chlorella vulgaris; membrane photobioreactor (MPBR)@NIES-2170@NIES2170
3082@Takagi, H., Kimoto, K., Fujiki, T., Moriya, K.@Effect of nutritional condition on photosymbiotic consortium of cultured Globigerinoides sacculifer (Rhizaria, Foraminifera).@Symbiosis,@76,@25-39.@2018@@Planktic foraminifers; Photosymbiosis; Symbiotic algae; Nutrition; Growth; Photophysiology@NIES-4008@NIES4008
3083@Sausen, N., Malavasi, V., Melkonian, M.@Molecular phylogeny, systematics and revision of the type species of Lobomonas, L. francei,(Volvocales, Chlorophyta) and closely related taxa.@J. Phycol.,@54,@198-214.@2018@@crystalline glycoprotein lattice; CWClade; ITS2; L. panduriformis; rbcL; Reinhardtinia; scanning electron microscopy; SSU nrRNA@NIES-456@NIES456@NIES-883@NIES883@NIES-3923@NIES3923@NIES-474@NIES474@NIES-1362@NIES1362@NIES-666@NIES666@NIES-541@NIES541@NIES-880@NIES880@NIES-566@NIES566@NIES-1858@NIES1858@NIES-879@NIES879@NIES-735@NIES735@NIES-882@NIES882@NIES-1708@NIES1708@NIES-2567@NIES2567@NIES-257@NIES257@NIES-418@NIES418@NIES-577@NIES577
3084@Yamashita, N., Fukunaga, A., Tanaka, H.@Examination of microplate AGP test using green algae, diatom and blue-green algae and water quality evaluation of river water and treated sewage effluent by AGP test.@Environmental science,@30,@250-260 (in Japanese with English summary).@2017@@Algal growth potential; mircoplate; bioassay; eutrophication; water quality evaluation@NIES-35@NIES35@NIES-805@NIES805@NIES-90@NIES90
3085@Nogami, R., Ushijima, K., Nishida, H., Wakisaka, M.@Enhancement of growth and lipid production of Botryococcus braunii by steel slags.@J. Jpn. Inst. Energy,@96,@372-375 (in Japanese with English summary).@2017@@Botryococcus braunii; Blast furnace slag; Growth promotion; Lipid production; Steelmaking slag@NIES-2199@NIES2199
3086@Moriya, Y. & Otaki, M.@Inhibition of algal growth in water purification process by UV irradiation and observation of damage level on algal cell.@J. Jpn. Soc. Wat. Environ.,@39,@91-96 (in Japanese with English summary).@2016@@Algae; Water purification; Ultraviolet irradiation; Inhibitation@NIES-2363@NIES2363@NIES-453@NIES453
3087@Hamada, M., Schröder, K., Bathia, J., Kürn, U., Fraune, S., Khalturina, M., Khalturin, K., Shinzato, C., Satoh, N., Bosch, T. C.G.@Metabolic co-dependence drives the evolutionary ancient Hydra-Chlorella symbiosis.@eLife,@7,@e35122 (article ID).@2018@@Chlorella; Hydra; evolutionary biology; genome; nitrogen metabolism; symbiosis@NIES-2166@NIES2166@NIES-2235@NIES2235@NIES-2541@NIES2541
3088@Featherston, J., Arakaki, Y., Hanschen, E. R., Ferris, PJ., Michod, R. E., Olson, B. J. S. C., Nozaki, H., Durand P. M.@The 4-celled Tetrabaena socialis nuclear genome reveals the essential components for genetic control of cell number at the origin of multicellularity in the volvocine lineage.@Mol. Biol. Evol.,@35,@855-870.@2018@@Volvocines; multicellularity; Tetrabaena socialis; evolutionary genomics@NIES-571@NIES571
3089@Suradkar, A., Villanueva, C., Gaysina, LA., Casamatta, DA., Saraf, A., Dighe, G., Mergu, R., Singh, P.@Nostoc thermotolerans sp. nov., a soil-dwelling species of Nostoc (Cyanobacteria).@Int. J. Syst. Evol. Microbiol.,@67,@1296-1305.@2017@@cyanobacteria; Taxonomy; Nostoc@NIES-40@NIES40@NIES-50@NIES50@NIES-21@NIES21@NIES-3756@NIES3756
3090@Karan, T., Erenler, R., Altuner, Z.@Isolation and molecular identification of some blue-green algae (cyanobacteria) from freshwater sites in Tokat province of Turkey.@Turkish JAF Sci.Tech.,@5@@2017@@Algae; 16S rRNA; Cyanobacteria; Molecular identification; Phycocyanine@NIES-816@NIES816
3091@Lee, C., Jeon, M. S., Vo, T-T., Park, C., Choi, J-S., Kwon, J., Roh, S. W., Choi, Y-E.@Establishment of a new strategy against Microcystis bloom using newly isolated lytic and toxin-degrading bacteria.@J. Appl. Phycol.,@30@1795–1806.@2018@@Algal bloom; Cyanobacterium; Bacterial isolation; Microcystis; Biological control; Microcystin degradation@NIES-144@NIES144
3092@Tong, S., Gao, K., Hutchins, D. A.@Adaptive evolution in the coccolithophore Gephyrocapsa oceanica following 1,000 generations of selection under elevated CO₂.@Glob. Change Biol.,@24,@3055-3064.@2018@@calcification; coccolithophore; evolution; Gephyrocapsa oceanica; ocean acidification; plasticity@NIES-1318@NIES1318
3093@Ranjan, P. & Kateriya, S.@Localization and dimer stability of a newly identifed microbial rhodopsin from apolar, non-motile green algae.@BMC Res. Notes,@11,@65 (article ID).@2018@@Coccomyxa subellipsoidea; Proton-pumping rhodopsin; Optogenetics; Localization of the microbial rhodopsin in eukaryotes; Chlorella vulgaris@NIES-2166@NIES2166
3094@Zhu, J. & Wakisaka, M.@Growth promotion of Euglena gracilis by ferulic acid from rice bran.@AMB Express,@8,@16 (article ID).@2018@@Euglena gracilis; Ferulic acid; Paramylon; Photosynthetic pigments@NIES-48@NIES48
3095@Schlüter, L., David, G. S., Jørgensen, N. O. G., Podduturi, R., Tucci, A., Dias, A. S., da Silva, R. J.@Characterization of phytoplankton by pigment analysis and the detection of toxic cyanobacteria in reservoirs with aquaculture production.@Aquac. Environ. Interact.,@10,@35-48.@2018@@Microcystins; Pigment analysis; Cyanobacteria; Phytoplankton composition; HPLC; Fish farm@NIES-107@NIES107
3096@Yamada, E., Ueda, T., Tanaka, T., Fujii, K., Mizuguchi, H., Fuse, Y.@Effects of photoirradiation on the characteristics of dissolved organic matter in Lake Biwa and its surrounding rivers.@J. Environ. Safety,@9, @23-32.@2018@@photoirradiation; wavelength cut filter; photodegradation; dissolved organic matter; fulvic-like fluorophore; protein-like fluorophore; environmental waters@NIES-109@NIES109@NIES-275@NIES275@NIES-665@NIES665
3097@Toyoshima, M. & Sato, N.@Optimization of triacylglycerol and starch production in Chlamydomonas debaryana NIES-2212 with regard to light intensity and CO₂ concentration.@Microbiology,@164,@359-368.@2018@@light intensity; CO2 supplement; TAG; Chlamydomonas debaryana; starch@NIES-2212@NIES2212
3098@Lysgaard, M. L., Eckford-Soper, L., Daugbjerg, N.@Growth rates of three geographically separated strains of the ichthyotoxic Prymnesium parvum (Prymnesiophyceae) in response to six different pH levels.@Estuar. Coast. Shelf Sci.,@204,@98-102.@2018@@Prymnesium parvum; pH response; Growth rate; Phenotypic plasticity; pH acclimation; Harmful algae@NIES-1017@NIES1017
3099@Sun, P., Cheng, K-W., He, Y., Liu, B., Mao, X., Chen, F.@Screening and identification of inhibitors of advanced glycation endproduct formation from microalgal extracts.@Food Funct.,@9,@1683-1691.@2018@@@NIES-144@NIES144
3100@Shen, X-F., Hu, H., Ma, L-L., Lam, P. K. S., Yan, S-K., Zhou, S-B., Zeng, R. J.@FAMEs production from Scenedesmus obliquus in autotrophic, heterotrophic and mixotrophic cultures under different nitrogen conditions.@Environ. Sci.-Wat. Res. Technol.,@4,@461-468.@2018@@@NIES-2280@NIES2280
3101@Htet, AN., Noguchi, M., Ninomiya, K., Tsuge, Y., Kuroda, K., Kajita, S., Masai, E., Katayama, Y., Shikinaka, K., Otsuka, Y., Nakamura, M., Honda, R., Takahashi, K.@Application of microalgae hydrolysate as a fermentation medium for microbial production of 2-pyrone 4,6-dicarboxylic acid.@J. Biosci. Bioeng.,@125,@717-722.@2018@@Microalgae; Chlorella emersonii; Acid hydrolysis; Fermentation; Escherichia coli; 2-pyrone 4,6-dicarboxylic acid@NIES-2151@NIES2151
3102@Miyagishima, S. & Wei, J. L.@Procedures for cultivation, observation, and conventional experiments in Cyanidioschyzon merolae.@In Cyanidioschyzon merolae: A New Model Eukaryote for Cell and Organelle Biology, Eds. by Kuroiwa, T., Miyagishima, S., Matsunaga, S., Sato, N., Nozaki, H., Tanaka, K., Misumi, O., Springer Singapore,@@pp. 31-41.@2018@@Cell cycle; Cell division; Cyanidiales; Cyanidioschyzon merolae; Red algae; Synchronous culture@NIES-3377@NIES3377
3103@Fjiwara, T. & Ohnuma, M.@Procedures for transformation and their applications in Cyanidioschyzon merolae.@In Cyanidioschyzon merolae: A New Model Eukaryote for Cell and Organelle Biology, Eds. by Kuroiwa, T., Miyagishima, S., Matsunaga, S., Sato, N., Nozaki, H., Tanaka, K., Misumi, O., Springer Singapore,@@pp. 87-103.@2018@@Transformation; Homologous recombination; Gene targeting; biotechnology; Algae; Genetic engineering@NIES-3377@NIES3377
3104@Ichinose, T. M. & Iwane, A. H.@Cytological analyses by advanced electron microscopy.@In Cyanidioschyzon merolae: A New Model Eukaryote for Cell and Organelle Biology, Eds. by Kuroiwa, T., Miyagishima, S., Matsunaga, S., Sato, N., Nozaki, H., Tanaka, K., Misumi, O., Springer Singapore,@@pp. 129-151.@2018@@FIB-SEM; SBF-SEM; EM-tomography; EM (electron microscopy); Block-face imaging; Cryo-TEM; Cryo-TEM tomography; Cyanidioschyzon merolae; Physical fixation@NIES-1804@NIES1804
3105@Sekiguchi, Y., Kobayashi, A., Takayama, Y., Oide, M., Fukuda, A., Yamamoto, Y., Okajima, K., Oroguchi, T., Hirakawa, T., Inui, Y., Matsunaga, S., Yamamoto, M., Nakasako, M.@Coherent X-ray Diffraction Imaging of Cyanidioschyzon merolae.@In Cyanidioschyzon merolae: A New Model Eukaryote for Cell and Organelle Biology, Eds. by Kuroiwa, T., Miyagishima, S., Matsunaga, S., Sato, N., Nozaki, H., Tanaka, K., Misumi, O., Springer Singapore,@@pp. 153-173.@2018@@@NIES-2087@NIES2087
3106@Sugiyama, K., Ebisawa, M., Yamada, M., Nagashima, Y., Suzuki, H., Maoka, T., Takaichi, S.@Functional lycopene cyclase (CruA) in cyanobacterium, Arthrospira platensis NIES-39, and its role in carotenoid synthesis.@Plant Cell Physiol.,@58,@831-838.@2017@@Arthrospira; Carotenoid; Lycopene cyclase; crtR; cruA; β-Carotene hydroxylase@NIES-39@NIES39
3107@Qiu, X., Shimasaki, Y., Yoshida, Y., Matsubara, T., Yamasaki, Y., Kawaguchi, M., Honda, M., Mouri, K., Nakajima, Y., Tasmin, R., Kuno, K., Kawamura, Y., Honjo, T., Oshima, Y.@Allelopathic effects of Skeletonema spp. may influence interspecific competition and bloom formation of co–occurring harmful flagellates.@J. Fac. Agr., Kyushu Univ.,@59,@373-382.@2014@@@NIES-324@NIES324@NIES-1@NIES1@NIES-10@NIES10
3108@Yamasaki, Y., Fujita, M., Kawano, S., Baba, T.@Effect of salinity on interspecific competition between the dinoflagellate Alexandrium catenella and the raphidophyte Heterosigma akashiwo.@Aquat. Microb. Ecol.,@81,@73-82.@2018@@Allelopathy; Cell contact; Hemolytic activity; Growth inhibition; Heterosigma akashiwo; Alexandrium catenella; Bi-algal culture@NIES-10@NIES10
3109@Garcia, H. F. L.@Mathematical modelling as a research tool in the cyanobacteria cultivation.@PhD thesis, Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany,@@101 pp. @2017@@@NIES-39@NIES39
3110@Zahradníková, M.@Taxonomy and phylogeny of the family Fuscideaceae (Umbilicariales, Ascomycota) with special emphasis on Fuscidea.@PhD thesis, University of Bergen, Norway,@@196 pp. @2017@@@NIES-2150@NIES2150@NIES-2342@NIES2342@NIES-640@NIES640@NIES-2352@NIES2352
3111@Ohki, K., Kumazawa, S., Yoe, T-W., Ho, K-K.@Improvement of artificial medium for the culture of marine microalgae and isolation and characterization of marine cyanobactria(Cyanophyta) from Singapore.@In Asian Network on Microbial Researches, Eds. Gadjah Mada University, Riken and Science and Technology Agency, Japan@@147-154.@1998@Medium (Modified Aquil medium)@@NIES-3600@NIES3600
3112@Wittek, S.@Acquisition of photoautotrophy in kleptoplastic dinoflagellates-Nusuttodinium aeruginosum/acidotum as a case study.@PhD thesis, Universität zu Köln, Germany,@@124 pp. @2018@@@NIES-713@NIES713@NIES-714@NIES714@NIES-712@NIES712
3113@Wang, L.@Structural characterisation of Histidine Kinase 2.@PhD thesis, Queen Mary University of London, U.K.,@@214 pp. @2018@@@NIES-843@NIES843
3114@Moten, D., Batsalova, T., Basheva, D., Mladenov, R., Dzhambazov, B., Teneva, I.@Outer membrane efflux protein (OMEP) is a suitable molecular marker for resolving the phylogeny and taxonomic status of closely related cyanobacteria.@Phycol. Res.,@66,@31-36.@2018@@cyanobacterial taxonomy; phylogenetic analysis; transmembrane transporter sequences@NIES-3755@NIES3755@NIES-3754@NIES3754@NIES-843@NIES843@NIES-3757@NIES3757@NIES-2104@NIES2104@NIES-39@NIES39@NIES-3756@NIES3756
3115@Hamaji, T., Kawai-Toyooka, H., Uchimura, H., Suzuki, M., Noguchi, H., Minakuchi, Y., Toyoda, A., Fujiyama, A., Miyagishima, S., Umen, J. G., Nozaki, H.@Anisogamy evolved with a reduced sexdetermining region in volvocine green algae.@Communications Biology,@1,@17 (article ID).@2018@@@NIES-4018@NIES4018@NIES-4100@NIES4100@NIES-3984@NIES3984@NIES-3985@NIES3985@NIES-3982@NIES3982@NIES-3983@NIES3983
3116@Peng, G., Martin, R.M., Dearth, S.P., Sun, X., Boyer, G.L., Campagna, S.R., Lin, S., Wilhelm, S.W.@Seasonally relevant cool temperatures interact with N chemistry to increase microcystins produced in lab cultures of Microcystis aeruginosa NIES-843.@Environ. Sci. Technol.,@52,@4127-4136.@2018@@@NIES-843@NIES843
3117@Pollner, E., Farré, E. M., Bennlng, C.@Advanced genetic tools enable synthetic biology in the oleaginous microalgae Nannochloropsis sp.@Plant Cell Reports,@37,@1383-1399.@2018@@Nannochloropsis; Algal biotechnology; Marker-free engineering; Gene stacking; Synthetic biology; Episomes@NIES-2145@NIES2145@NIES-2146@NIES2146
3118@Mousavi, S., Najafpour, G.D., Mohammadi, M., Seifi, M.H.@Cultivation of newly isolated microalgae Coelastrum sp. in wastewater.@Bioprocess. Biosyst. Eng.,@41,@519-530.@2018@@Microalgae; Coelastrum sp.; CO2 fixation; Wastewater treatment@NIES-244@NIES244
3119@Takahashi, S., Tomita, M., Nakada, T.@Morphology and phylogeny of a Japanese strain of Chlamydomonas augustae (Volvocales, Chlorophyceae).@J. Jpn. Bot., @93,@317-321.@2018@@Chlamydomonas; Chloromonas; Chlorophyceae; culture strain; distribution; Japan; phylogeny; taxonomy@NIES-4143@NIES4143
3120@Nishimura, T., Sato, S., Tawong, W., Sakanari, H., Uehara, K., Shah, M.M., Suda, S., Yasumoto, T., Taira, Y., Yamaguchi, H., Adachi, M.@Genetic diversity and distribution of the ciguatera-causing dinoflagellate Gambierdiscus spp. (Dinophyceae) in coastal areas of Japan.@PLoS One,@8,@e60882 (article ID).@2013@@@NIES-4118@NIES4118@NIES-4119@NIES4119@NIES-4120@NIES4120
3121@Nishimura, T., Sato, S., Tawong, W., Sakanari, H., Yamaguchi, H., Adachi, M.@Morphology of Gambierdiscus scabrosus sp. nov. (Gonyaulacales): a new epiphytic toxic dinoflagellate from coastal areas of Japan.@J. Phycol.,@50,@506-514.@2014@@ciguatera fish poisoning; epiphytic; dinoflagellate; Gambierdiscus scabrosus; Japan; LM; morphology; SEM; taxonomy@NIES-4118@NIES4118
3122@Yoshimatsu, T., Yamaguchi, H., Iwamoto, H., Nishimura, T., Adachi, M.@Effects of temperature, salinity and their interaction on growth of Japanese Gambierdiscus spp. (Dinophyceae).@Harmful Algae,@35,@29-37.@2014@@Ciguatera; Japanese Gambierdiscus; Growth; Temperature; Salinity@NIES-4118@NIES4118@NIES-4119@NIES4119@NIES-4120@NIES4120
3123@Nishimura, T., Hariganeya, N., Tawong, W., Sakanari, H., Yamaguchi, H., Adachi, M.@Quantitative PCR assay for detection and enumeration of ciguatera-causing dinoflagellate Gambierdiscus spp. (Gonyaulacales) in coastal areas of Japan.@Harmful Algae,@52,@11-22.@2016@@Ciguatera fish poisoning; Dinoflagellate; Gambierdiscus; Japan: Quantitative PCR assay@NIES-4118@NIES4118@NIES-4119@NIES4119@NIES-4120@NIES4120
3124@Yoshimatsu, T., Tie, C., Yamaguchi, H., Funaki, H., Honma, C., Tanaka, K., Adachi, M.@The effects of light intensity on the growth of Japanese Gambierdiscus spp. (Dinophyceae).@Harmful Algae,@60,@107-115.@2016@@Ciguatera; Gambierdiscus; Growth; Ligh@NIES-4118@NIES4118@NIES-4119@NIES4119@NIES-4120@NIES4120
3125@Pisapia, F., Holland, W. C., Hardison, D. R., e Litake, R. W., Fraga, S., Nishimura, T., Adachi, M., Nguyen-Ngoc, L., Séchet, V., Amzil, Z., Herrenknecht, C., Hess, P.@Toxicity screening of 13 Gambierdiscus strains using neuro-2a and erythrocyte lysis bioassays.@Harmful Algae,@63,@173-183.@2017@@Ciguatera fish poisoning; Gambierdiscus; Ciguatoxins; Maitotoxins; Neuro-2a assay; Erythrocyte lysis assay@NIES-4118@NIES4118
3126@Pisapia, F., Sibat, .M., Herrenknecht, C., Lhaut, K., Gaiani, G., Ferron, P., Fessard, V., Fraga, S., Nascimento, S. M., Litaker, R. W., Holland, W. C., Roullier, C., Hess, P.@Maitotoxin-4, a novel MTX analog produced by Gambierdiscus excentricus.@Mar. Drugs,@15,@220 (article ID).@2017@@Gambierdiscus excentricus; maitotoxin-4; bioguided fractionation; size-exclusion chromatography (LH-20); neuro-2a (N2a) assay; LC-HRMS/MS (Q-Tof 6550); LC-LRMS/MS (API4000 QTrap)@NIES-4118@NIES4118@NIES-4119@NIES4119
3127@Wada, S., Kumamoto, T., Yamamoto, Y., Nakasuga, H., Koike, K., Horie, H.@Development of the experimental teaching materials to easily observe the environmental effects of antimicrobaials.@JSSE Research Report,@34,@1-15 (in Japanese). @2020@@@NIES-35@NIES35
3128@Lyu, Y., Richlen, M, L. Sehein, T. R, Chinain, M., Adachi, M., Nishimura, T., Xu, Y., Parsons, M. L., Smith, T. B., Zheng, T., Anderson, D. M.@LSU rDNA based RFLP assays for the routine identification of Gambierdiscus species.@Harmful Algae,@66,@20-28.@2017@@Gambierdiscus; Ciguatera; RFLP; LSU rDNA@NIES-4119@NIES4119
3129@Tuji, A., Nakagawa, M., Sato, M., Yamaguchi, H.@A new planktonic diatom, Craticula pseudocitrus sp. nov., Naviculales, Bacillariophyceae found in Lake Kasumigaura, Japan.@Bull. Natl. Mus. Nat. Sci., Ser. B,@44,@15-22.@2018@@Craticula citrus; Craticula pseudocitrus sp. nov.; Lake Kasumigaure; Navicula citrus@NIES-4015@NIES4015
3130@Vande Berg, W.J., Starr, R.C.@Structure, reproduction and differentiation in Volvox gigas and Volvox powersii.@In Archiv für Protistenkunde,@113,@pp. 195-219.@1971@@@NIES-4127@NIES4127
3131@Matsuzaki, R., Nozaki, H., Kawachi, M.@Taxonomic revision of Chloromonas nivalis (Volvocales, Chlorophyceae) strains, with the new description of two snow-inhabiting Chloromonas species.@PLoS One,@13,@e0193603 (article ID).@2018@@@NIES-464@NIES464@NIES-2379@NIES2379@NIES-2862@NIES2862@NIES-3389@NIES3389@NIES-3707@NIES3707@NIES-3753@NIES3753@NIES-2380@NIES2380@NIES-2563@NIES2563
3132@Nagashima, H.@Natural products of the Cyanidiophyceae.@In Evolutionary Pathways and Enigmatic Algae: Cyanidium caldarium (Rhodophyta) and Related Cells, Ed. by Seckbach, J., Kluwer Academic Publishers, Netherlands,@@pp. 201-214.@1994@@@NIES-3891@NIES3891
3133@Nakamura, M., Yamagiwa, Y., HigashiuraA, N., Tokino, S., Maeda, T.@Fundamental study on application of the newly isolated Euglena to wastewater treatment.@Jpn. J. Water Treat. Biol., @54,@39-46 (in Japanese with English summary).@2018@@Euglena; growth rate; wastewater treatmen@NIES-49@NIES49@NIES-47@NIES47@NIES-48@NIES48
3134@Yamaguchi, H., Suzuki, S., Osana, Y., Kawachi, M.@Complete genome sequence of Microcystis aeruginosa NIES-2481 and common genomic features of group G M. aeruginosa.@J. Genomics,@6,@30-33.@2018@@algal bloom; cyanobacteria; genome; Microcystis@NIES-2481@NIES2481
3135@Watanabe, S. & Nakada, T.@Gymnomonas nepalensis gen. et sp. nov. for the naked flagellate strain ‘Nepal’, formerly identified as Dunaliella lateralis (Volvocales, Chlorophyceae).@Phycol. Res.,@66,@167-172.@2018@@Dunaliellinia; Hapalochloris nozakii; naked flagellate; Oogamochlamydinia@NIES-3572@NIES3572@NIES-4107@NIES4107
3136@Temraleeva, A. D.@Cyanobacterial diversity in the soils of russian dry steppes and semideserts.@Microbiology,@87,@249-260.@2018@@cyanobacteria; soils dry; steppes semideserts@NIES-24@NIES24
3137@de Mendoza, A., Bonnet, A., Vargas-Landin, D. B., Ji, N., Li, H., Yang, F., Li, L., Hori, K., Pflueger, J., Buckberry, S., Ohta, H., Rosic, N., Lesage, P., Lin, S., Lister, R.@Recurrent acquisition of cytosine methyltransferases into eukaryotic retrotransposons.@Nat. Commun.,@9,@1341 (article ID).@2018@@DNA methylation; Epigenomics; Molecular evolution; Transposition@NIES-2285@NIES2285
3138@Hasegawa, H., Nozawa, A., Papry, R. I., Maki, T., Miki, O., Rahman, M. A.@Effect of biodegradable chelating ligands on Fe uptake in and growth of marine microalgae.@J. Appl. Phycol.,@30@ 2215-2225.@2018@@Microalgae; Growth; Fe uptake; APCs; Chelating ligands@NIES-16@NIES16
3139@Wang, Y., Seppänen-Laakso, T., Rischer, H., Wiebe, M. G.@Euglena gracilis growth and cell composition under different temperature, light and trophic conditions.@PLoS One,@13,@e0195329 (article ID).@2018@@@NIES-48@NIES48
3140@Zhao, L., Song, Y., Li, L., Gan, N., Brand, JJ., Song, L.@The highly heterogeneous methylated genomes and diverserestriction-modification systems of bloom-forming Microcystis.@Harmful Algae,@75,@87-93.@2018@@Cyanobacterial bloom; DNA methylation modification; Epigenetics; Methyltransferase; Microcystis; SMRT@NIES-843@NIES843@NIES-2549@NIES2549
3141@Mitsutani, A., Yamasaki, I., Kitaguchi, H., Kato, J., Ueno, S., Ishida, Y.@Analysis of algicidal proteins of a diatom-lytic marine bacterium Pseudoalteromonas sp. strain A25 by two-dimensional electrophoresis.@Phycologia,@40,@286-291.@2001@@@NIES-324@NIES324
3142@Starr, R. C.@Cellular differentiation in Volvox.@Proc. Natl. Acad. Sci. U. S. A.,@59,@1082-1088.@1968@@@NIES-4128@NIES4128
3143@Miao, H., Beardall, J., Gao, K.@Calcification moderates the increased susceptibility to UV radiation of the coccolithophorid Gephryocapsa oceanica grown under elevated CO₂ concentration: Evidence based on calcified and non-calcified cells.@Photochem. Photobiol.,@94, @994-1002.@2018@@@NIES-1318@NIES1318
3144@Suzuki, S., Yamaguchi, H., Nakajima, N., Kawachi, M.@Raphidocelis subcapitata (=Pseudokirchneriella subcapitata) provides an insight into genome evolution and environmental adaptations in the Sphaeropleales.@Sci Rep,@8,@8058 (article ID).@2018@@@NIES-35@NIES35
3145@Rho, M. C., Matsunaga, K., Yasuda, K., Ohizumi, Y.@A novel inhibitor of platelet aggregation from the Cyanophyceae Oscillatoria rosea (NIES-208).@Planta Med.,@62,@473-474.@1996@@RABBIT PLATELETS; DINOFLAGELLATE@NIES-208@NIES208
3146@Araie, H., Nakamura, H., Toney, J. L., Haigg, H. A., Plancq, J., Shiratori, T., Leavitt, P. R., Seki, O., Ishida, K-I., Sawada, K., Suzuki, I., Shiraiwa, Y.@Novel alkenone-producing strains of genus Isochrysis (Haptophyta) isolated from Canadian saline lakes show temperature sensitivity of alkenones and alkenoates.@Org. Geochem.,@121,@89-103.@2018@@Alkenones; Alkenone unsaturation index; Canadian salt lakes; Chemotaxonomy; Haptophytes; Isochrysis; Long-chain alkyl ketones; Paleothermometer; U^K₃₇@NIES-4335@NIES4335@NIES-4331@NIES4331@NIES-4332@NIES4332@NIES-4333@NIES4333@NIES-4334@NIES4334
3147@Hua, C., Ludsinb, S. A., Martinc, J. F., Dittmannd, E., Lee, J.@Mycosporine-like amino acids (MAAs)—producing Microcystis in Lake Erie:Development of a qPCR assay and insight into its ecology.@Harmful Algae,@77,@1–10.@2018@@Shinorine; Porphyra; UV irradiation; Sunscreen; Eutrophication; Harmful algal bloom@NIES-843@NIES843
3148@Hoshina, R., Iwataki, M., Imamura, N.@Chlorella variabilis and Micractinium reisseri sp. nov. (Chlorellaceae, Trebouxiophyceae): Redescription of the endosymbiotic green algae of Paramecium bursaria (Peniculia, Oligohymenophorea) in the 120th year.@Phycol. Res.,@58,@188-201.@2010@@Chlorella variabilis; ITS2; Micractinium reisseri; Paramecium bursaria; species concept@NIES-2542@NIES2542@NIES-2540@NIES2540
3149@Shoguchi, E., Beedessee, G., Tada, I., Hisata, K., Kawashima, T., Takeuchi, T., Arakaki, N., Fujie, M., Koyanagi, R., Roy, M. C., Kawachi, M., Hidaka, M., Satoh, N., Shinzato, C.@Two divergent Symbiodinium genomes reveal conservation of a gene cluster for sunscreen biosynthesis and recently lost genes.@BMC Genomics,@19,@458 (article ID).@2018@@Dinoflagellates; Evolutionary genomics; Symbiodinium; Mycosporine-like amino acids; Symbiosis@NIES-4076@NIES4076@NIES-4077@NIES4077
3150@Stawiarski, B., Buitenhuis, ET., Le Quéré, C.@The physiological response of picophytoplankton to temperature and its model representation.@Front. Mar. Sci.,@3,@164 (article ID).@2016@@@NIES-2588@NIES2588@NIES-2886@NIES2886@NIES-2693@NIES2693
3151@Lopes dos Santos, A., Gourvil, P., Tragin, M., Noël, M.-H., Decelle, J., Romac, S., Vaulot, D.@Diversity and oceanic distribution of prasinophytes clade VII, the dominant group of green algae in oceanic waters.@ISME J.,@11,@512-528.@2016@@@NIES-2755@NIES2755@NIES-3849@NIES3849@NIES-2758@NIES2758@NIES-3669@NIES3669@NIES-3835@NIES3835@NIES-2756@NIES2756@NIES-3668@NIES3668@NIES-3670@NIES3670@NIES-3671@NIES3671
3152@Marie, D., Le Gall, F., Edern, R., Gourvil, P., Vaulot, D.@Improvement of phytoplankton culture isolation using single cell sorting by flow cytometry.@J. Phycol.,@53,@271-282.@2017@@antibiotics; BSA; flow cytometry; microalgal; cultures; nanoeukaryotes; phytoplankton; picoeukaryotes;; single cell sorting@NIES-2672@NIES2672
3153@Marron, A. O., Ratcliffe, S., Wheeler, G. L., Goldstein, R. E., King, N., Not, F., de Vargas, C., Richter, D. J.@The evolution of silicon transport in eukaryotes.@Mol. Biol. Evol.,@33,@3226–3248.@2016@@silicon; eukaryotes; SIT, Lsi2; convergent evolution; transporter@NIES-2687@NIES2687
3154@Delmont, T. O. & Eren, A. M.@Linking pangenomes and metagenomes: the Prochlorococcus metapangenome.@PeerJ,@6,@e4320 (article ID).@2018@@@NIES-2880@NIES2880
3155@Domínguez-Martín, M. A., Gómez-Baena, G., Díez J., López-Grueso, M. J., Beynon, R. J., García-Fernández, J. M.@Quantitative proteomics shows extensive remodeling induced by nitrogen limitation in Prochlorococcus marinus SS120.@mSystems.,@2,@e00008-17 (article ID).@2017@@marine cyanobacteria; nitrogen limitation; nitrogen metabolism; prochlorococcus; quantitative proteomics@NIES-2880@NIES2880
3156@Lee, J. Y., Lee, J. S., Sim, L. S.@Enhanced toxicity-free astaxanthin extraction from Haematococcus pluvialis via concurrent cell disruption and demulsification.@Bioresour. Technol.,@406,@130974 (article ID).@2024@@Haematococcus pluvialis; Astaxanthin recovery; Aqueous extraction; Demulsification@NIES-144@NIES144
3157@Garcia, N. S., Sexton, J., Riggins, T., Brown, J., Lomas, M. W., Martiny, A.C.@High variability in cellular stoichiometry of carbon, nitrogen, and phosphorus within classes of marine eukaryotic phytoplankton under sufficient nutrient conditions.@Front. Microbiol.,@9,@543 (article ID).@2018@@@NIES-2690@NIES2690
3158@Lei, C., Kobayashi, H., Wu, Y., Li, M., Isozaki, A., Yasumoto, A., Mikami, H., Ito, T., Nitta, N., Sugimura, T., Yamada, M., Yatomi, Y., Di Carlo, D., Ozeki, Y., Goda, K.@High-throughput imaging flow cytometry by optofluidic time-stretch microscopy.@Nat. Protoc.,@13,@1603-1631.@2018@@@NIES-48@NIES48
3159@Shimakawa, G., Murakami, A., Niwa, K., Matsuda, Y., Wada, A., Miyake, C.@Comparative analysis of strategies to prepare electron sinks in aquatic photoautotrophs.@Photosynth. Res.,@139,@401–411.@2019@@Reactive oxygen species; P700 oxidation; Photosystem I; Seaweeds@NIES-705@NIES705@NIES-1959@NIES1959@NIES-2138@NIES2138@NIES-2147@NIES2147@NIES-2145@NIES2145
3160@Liu, L., Chen, J., Lim, P-E., Wei, D.@Dual-species cultivation of microalgae and yeast for enhanced biomass and microbial lipid production.@J. Appl. Phycol.,@30,@2997–3007.@2018@@Chlorella; Oleaginous yeast; Artificial consortium; Mixed culture; Microbial lipid production@NIES-227@NIES227
3161@Velichko, N. V., Emelijanova, M. S., Averina, S. G., Pinevich, A. A., Pinevich, A. V.@Taxonomic attribution of “Oscillatoriales” strains within the bacteriological system of cyanobacteria: Identification algorithm for operational genera.@Microbiology,@,@393-406.@2018@@“Oscillatoriales” cyanobacteria; polyphasic taxonomy; form-genus; PCC type strains; 16S rRNA gene sequencing; HIP1 fingerprinting@NIES-3735@NIES3735
3162@Qin, L., Liu, L., Wang, Z., Chen, W., Wei, D.@Efficient resource recycling from liquid digestate by microalgae-yeast mixed culture and the assessment of key gene transcription related to nitrogen assimilation in microalgae.@Bioresour. Technol.,@264,@90-97.@2018@@Chlorella vulgaris; Digestate; Mixed culture; Yarrowia lipolytica@NIES-227@NIES227
3163@Engesmo, A., Strand, D., Gran-Stadniczeñko, S., Edvardsen, B., Medlin, LK., Eikrem, W.@Development of a qPCR assay to detect and quantify ichthyotoxic flagellates along the Norwegian coast, and the first Norwegian record of Fibrocapsa japonica (Raphidophyceae).@Harmful Algae,@75,@105-117.@2018@@Karenia mikimotoi; Karlodinium veneficum; Heterosigma akashiwo; Molecular monitoring; rDNA; 454 high throughput environmental; sequencing; SEM@NIES-15@NIES15
3164@Abeynayaka, HDL., Asaeda, T., Rashid, MH.@Effects of elevated pressure on Pseudanabaena galeata Böcher in varying light and dark environments.@Environ. Sci. Pollut. Res.,@25,@21224–21232.@2018@@Cyanobacteria; Hydrostatic pressure; Pseudanabaena galeata Böcher; Prolonged darkness; Chlorophyll-a; Cell concentration@NIES-512@NIES512
3165@Tanabe, Y., Hodoki, Y., Sano, T., Tada, K., Watanabe, MM.@Adaptation of the freshwater bloom-forming cyanobacterium Microcystis aeruginosa to brackish water is driven by recent horizontal transfer of sucrose genes.@Front. Microbiol.,@9,@1150 (article ID).@2018a@@Microcystis; bloom; salt tolerance; sucrose; genomics; brackish water; horizontal gene trasnfer; ecotype@NIES-44@NIES44@NIES-87@NIES87@NIES-88@NIES88@NIES-89@NIES89@NIES-90@NIES90@NIES-91@NIES91@NIES-98@NIES98@NIES-99@NIES99@NIES-100@NIES100@NIES-101@NIES101@NIES-102@NIES102@NIES-103@NIES103@NIES-104@NIES104@NIES-105@NIES105@NIES-107@NIES107@NIES-108@NIES108@NIES-109@NIES109@NIES-112@NIES112@NIES-298@NIES298@NIES-299@NIES299@NIES-478@NIES478@NIES-604@NIES604@NIES-843@NIES843@NIES-901@NIES901@NIES-1050@NIES1050@NIES-1052@NIES1052@NIES-1059@NIES1059@NIES-1063@NIES1063@NIES-1067@NIES1067@NIES-1069@NIES1069@NIES-1070@NIES1070@NIES-1075@NIES1075@NIES-1076@NIES1076@NIES-1085@NIES1085@NIES-1093@NIES1093@NIES-1094@NIES1094@NIES-1098@NIES1098@NIES-1100@NIES1100@NIES-1101@NIES1101@NIES-1102@NIES1102@NIES-1104@NIES1104@NIES-1105@NIES1105@NIES-1106@NIES1106@NIES-1107@NIES1107@NIES-1108@NIES1108@NIES-1113@NIES1113@NIES-1114@NIES1114@NIES-1115@NIES1115@NIES-1122@NIES1122@NIES-1128@NIES1128@NIES-1130@NIES1130@NIES-1131@NIES1131@NIES-1132@NIES1132@NIES-1134@NIES1134@NIES-1139@NIES1139@NIES-1141@NIES1141@NIES-1142@NIES1142@NIES-1143@NIES1143@NIES-1144@NIES1144@NIES-1150@NIES1150@NIES-1170@NIES1170@NIES-1174@NIES1174@NIES-1175@NIES1175@NIES-1176@NIES1176@NIES-1177@NIES1177@NIES-1179@NIES1179@NIES-1181@NIES1181@NIES-1183@NIES1183@NIES-1185@NIES1185@NIES-1211@NIES1211@NIES-1213@NIES1213@NIES-1214@NIES1214@NIES-1215@NIES1215@NIES-1232@NIES1232@NIES-1234@NIES1234@NIES-1238@NIES1238@NIES-1239@NIES1239@NIES-1252@NIES1252@NIES-2088@NIES2088@NIES-2090@NIES2090@NIES-2091@NIES2091@NIES-2465@NIES2465@NIES-2466@NIES2466@NIES-2467@NIES2467@NIES-2468@NIES2468@NIES-2469@NIES2469@NIES-2470@NIES2470@NIES-2471@NIES2471@NIES-2472@NIES2472@NIES-2473@NIES2473@NIES-2475@NIES2475@NIES-2476@NIES2476@NIES-2477@NIES2477@NIES-2478@NIES2478@NIES-2479@NIES2479@NIES-2480@NIES2480@NIES-2481@NIES2481@NIES-2482@NIES2482@NIES-2483@NIES2483@NIES-2484@NIES2484@NIES-2485@NIES2485@NIES-2486@NIES2486@NIES-2487@NIES2487@NIES-2488@NIES2488@NIES-2489@NIES2489@NIES-2490@NIES2490@NIES-2491@NIES2491@NIES-2492@NIES2492@NIES-2494@NIES2494@NIES-2495@NIES2495@NIES-2546@NIES2546@NIES-2547@NIES2547@NIES-2548@NIES2548@NIES-2549@NIES2549@NIES-2550@NIES2550@NIES-2551@NIES2551@NIES-2552@NIES2552@NIES-2553@NIES2553@NIES-2554@NIES2554@NIES-2555@NIES2555@NIES-2556@NIES2556@NIES-2557@NIES2557@NIES-2558@NIES2558@NIES-2559@NIES2559@NIES-2560@NIES2560@NIES-2561@NIES2561@NIES-2592@NIES2592@NIES-2594@NIES2594@NIES-2595@NIES2595@NIES-2596@NIES2596@NIES-2597@NIES2597@NIES-2598@NIES2598@NIES-2599@NIES2599@NIES-2600@NIES2600@NIES-2601@NIES2601@NIES-2602@NIES2602@NIES-2603@NIES2603@NIES-2604@NIES2604@NIES-2605@NIES2605@NIES-2606@NIES2606@NIES-2607@NIES2607@NIES-2608@NIES2608@NIES-2610@NIES2610@NIES-2611@NIES2611@NIES-2612@NIES2612@NIES-2613@NIES2613@NIES-2617@NIES2617@NIES-2618@NIES2618@NIES-2619@NIES2619@NIES-2620@NIES2620@NIES-2621@NIES2621@NIES-2622@NIES2622@NIES-2623@NIES2623@NIES-2624@NIES2624@NIES-2625@NIES2625@NIES-2626@NIES2626@NIES-2628@NIES2628@NIES-2629@NIES2629@NIES-4234@NIES4234
3166@Tuji, A. & Niiyama, Y. @Two new Pseudanabaena (Cyanobacteria, Synechococcales) species from Japan, Pseudanabaena cinerea and Pseudanabaena yagii, which produce 2-methylisoborneol.@Phycol. Res.,@66,@291-299.@2018@@internal transcribed spacer region; Phormidiumtenue; Pseudanabaena foetida; Pseudanabaena subfoetida; rRNA operon; secondary structure@NIES-512@NIES512@NIES-4238@NIES4238@NIES-4237@NIES4237@NIES-4063@NIES4063@NIES-4065@NIES4065@NIES-4062@NIES4062@NIES-4064@NIES4064@NIES-4059@NIES4059
3167@Singh, H. W., Wada, R. M., Sherwood, A. R.@Diurnal patterns of airborne algae in the Hawaiian Islands: a preliminary study.@Aerobiologia,@34,@363–373.@2018@@Chlorophyta; Cyanobacteria; Green algae; Trade winds; Universal Plastid Amplicon@NIES-4105@NIES4105@NIES-3755@NIES3755
3168@Batista, A. M. M., Woodhouse, J. N., Grossart, H.-P., Giani, A.@Methanogenic archaea associated to Microcystis sp. in field samples and in culture.@Hydrobiologia,@831,@1–4.@2019@@Cyanobacteria; Methanogenic archaea; Bacterial community composition; Microcystis sp.; Tropical reservoir@NIES-102@NIES102@NIES-1114@NIES1114@NIES-101@NIES101
3169@Suzuki, Y., Saijo, H., Takahashi, K., Kofujita, H., Ashitani, T.@Growth-inhibitory components in Sugi (Cryptomeria japonica) extracts active against Microcystis aeruginosa.@Cogent Environ. Sci.,@4,@1466401 (article ID).@2018@@algal bloom; Japanese cedar; terpenoid; flavonoid, Cyanobacteria@NIES-87@NIES87
3170@Cellamare, M., Duval, C., Drelin, Y., Djediat, C., Touibi, N., Agogué, H., Leboulanger, C., Ader, M., Bernard, C.@Characterization of phototrophic microorganisms and description of new cyanobacteria isolated from the saline-alkaline crater-lake Dziani Dzaha (Mayotte, Indian Ocean).@FEMS Microbiol. Ecol.,@94@fiy108 (article ID).@2018@@cyanobacteria; microalgae; crater-lake; saline-alkaline lake; polyphasic approach; Arthrospira@NIES-1410@NIES1410
3171@Hong, J. W., Kim, O. H., Jo, S. W., Kim, H., Jeong, M. R., Yoon, H. S.@Characterization of alkane-producing Nostoc sp. isolated from a summer bloom for biofuel potential.@J. Biobased Mater. Bioenergy,@12,@244-251.@2018@@Alkane-Producing Genes; Biofuel; Cyanobacteria; Heptadecane; Potential; Feedstoc@NIES-21@NIES21@NIES-2109@NIES2109
3172@Fang, L., Leliaert, F., Novis, P. M., Zhang, Z., Zhu, H., Liu, G., Penny, D., Zhong, B.@Improving phylogenetic inference of core Chlorophyta using chloroplastsequences with strong phylogenetic signals and heterogeneous models.@Mol. Phylogenet. Evol.,@127,@248-255.@2018@@Green algae; Phylogenomics; GC-heterogeneous sites; Heterogeneous models; Phylogenetic signals@NIES-1838@NIES1838@NIES-154@NIES154@NIES-537@NIES537@NIES-1837@NIES1837
3173@Tsuchikane, Y., Kobayashi, H., Kato, M., Watanabe, J., Wu, J. T., Sekimoto, H.@Identification of a new mating group and reproductive isolation in the Closterium peracerosum–strigosum–littorale complex.@J. Plant Res.,@131,@735–746.@2018@@Alga; Closterium; Mating group; Reproductive isolation; Sex pheromone; Speciation@NIES-68@NIES68@NIES-55@NIES55@NIES-53@NIES53@NIES-54@NIES54@NIES-64@NIES64@NIES-65@NIES65@NIES-66@NIES66@NIES-261@NIES261@NIES-4319@NIES4319@NIES-4320@NIES4320@NIES-67@NIES67
3174@Fukuda, S., Yamamoto, R., Iwamoto, K., Minoda, A.@Cellular accumulation of cesium in the unicellular red alga Galdieria sulphuraria under mixotrophic conditions.@J. Appl. Phycol.,@30,@3057-3061.@2018@@Bioremediation; Galdieria sulphuraria; Rhodophyceae; Radioactive cesium; Biological concentration@NIES-3638@NIES3638
3175@Guerriero, G., Sergeant, K., Legay, S., Hausman, J. F., Cauchie, H. M., Ahmad, I., Siddiqui, K. S.@Novel insights from comparative in silico analysis of green microalgal cellulases.@Int. J. Mol. Sci.,@19,@1782 (article ID).@2018@@cellulase; glycosyl hydrolase family 9; carbohydrate binding module (CBM); bioinformatics; RT-qPCR@NIES-2863@NIES2863
3176@Zongyi, Y., Lu, L., Chen, J., Wei, D.@Effect of crude glycerol on heterotrophic growth of Chlorella pyrenoidosa and Coccomyxa subellipsoidea C-169.@J. Appl. Phycol.,@30,@2989–2996.@2018@@Chlorophyceae; Microalgae; Crude glycerol; Heterotrophic growth; Biodiesel@NIES-2166@NIES2166
3177@Matsuo, M., Katahata, A., Satoh, S., Matsuzaki, M., Nomura, M., Ishida, K. I., Inagaki, Y., Obokata, J.@Characterization of spliced leader transsplicing in a photosynthetic rhizarian amoeba, Paulinella micropora, and its possible role in functional gene transfer.@PLoS One,@13,@e0200961 (article ID).@2018@@@NIES-4060@NIES4060
3178@Ito, T., Okabe, K., Mori, M.@Growth reduction of Microcystis aeruginosa by clay ball elution solution.@Appl. Clay Sci.,@162,@223-229.@2018@@Cyanobacterial bloom; Clay ball; Microcystis aeruginosa; Silicate; Diatom; Concrete@NIES-1068@NIES1068@NIES-71@NIES71
3179@Tasmin, R., Shimasaki, Y., Tsuyama, M., Qiu, X., Khalil, F., Mukai, K., Khanam, M. R. M., Yamada, N., Fukuda, S., Kang, I. J., Oshima, Y.@Effects of water temperature and light intensity on the acute toxicity of herbicide thiobencarb to a green alga, Raphidocelis subcapitata.@Environ. Sci. Pollut. Res.,@25,@25363–25370.@2018@@Thiobencarb; Raphidocelis subcapitata; Watertemperature; Lightintensity; Photosystem II; Effectiveconcentration@NIES-35@NIES35
3180@Toyama, T., Kasuya, M., Hanaoka, T., Kobayashi, N., Tanaka, Y., Inoue, D., Sei, K., Morikawa, M., Mori, K.@Growth promotion of three microalgae, Chlamydomonas reinhardtii, Chlorella vulgaris and Euglena gracilis, by in situ indigenous bacteria in wastewater efuent.@Biotechnol. Biofuels,@11,@176 (article ID).@2018@@Microalgae; Wastewater efuent; Enhanced biomass production; Microalgae growth-promoting bacteria@NIES-2172@NIES2172@NIES-2235@NIES2235@NIES-48@NIES48
3181@Choi, H. J., Joo, J.-H., Kim, J.-H., Wang, P., Ki, J.-S.@Morphological characterization and molecular phylogenetic analysis of Dolichospermum hangangense (Nostocales, Cyanobacteria) sp. nov. from Han River, Korea.@Algae,@33,@143-156.@2018@@Dolichospermum hangangense; morphology; rbcLX; 16S rRNA; 16S-23S ITS@NIES-1683@NIES1683@NIES-1934@NIES1934@NIES-817@NIES817@NIES-1681@NIES1681
3182@Driscoll, C. B., Meyer, K. A., Šulčius, S., Brown, N. M., Dick, G. J., Cao, H., Gasiūnas, G., Timinskas, A., Yin, Y., Landry, Z. C., Otten, T. G., Davis, T. W., Watson, S. B., Dreher, T. W.@A closely-related clade of globally distributed bloom-forming cyanobacteria within the Nostocales.@Harmful Algae,@77,@93-107.@2018@@Genomics; Metagenomics; Filamentous cyanobacteria@NIES-81@NIES81
3183@Kawamura, K., Sumii, K., Matsumoto, M., Nakase, D., Kosaki, Y., Ishikawa, M.@Determining the optimal cultivation strategy for microalgae for biodiesel production using flow cytometric monitoring and mathematical modeling.@Biomass Bioenerg.,@117,@24-31.@2018@@Biofuel; Logistic equation; Optimal cultivation; Simulation model; Triacylglycerols@NIES-2168@NIES2168
3184@Hong, M. E.1, Choi, H. I., Kwak, H. S., Hwang, S. W., Sung, Y. J., Chang, W. S., Sim, S. J.@Rapid selection of astaxanthin-hyperproducing Haematococcus mutant via azide-based colorimetric assay combined with oil-based astaxanthin extraction.@Bioresour. Technol.,@267,@175-181.@2018@@Haematococcus pluvialis; Autotrophic astaxanthin production; High-throughput screening; Azide-based colorimetric assay; Oil-based astaxanthin extraction method@NIES-144@NIES144
3185@Lee, J.-Y. & Jeong, S.-Y.@Characteristics and effects of algal-lytic bacterium for control of fresh water microalgae.@J. Eng. Appl. Sci.,@13,@2803-2808.@2018@@Algal blooms; algal-lytic activity; fresh microalgae; Microcystis aeruginosa; Pseudomonas sp. JS-9; substance@NIES-298@NIES298
3186@Selivanova, E. A., Poshvina, D. V., Khlopko, Yu. A., Gogoleva, N. E., Plotnikov, A. O.@Diversity of prokaryotes in planktonic communities of saline sol-iletsk lakes (Orenburg Oblast, Russia).@Microbiology,@87,@569-582.@2018@@saline lakes; biodiversity; prokaryotes; halophilic bacteria; archaea; planktonic communities; high-throughput sequencing; Illumina; 16S rRNA gene@NIES-204@NIES204@NIES-1267@NIES1267
3187@China, S. & Fujii, K.@Isolation of high-CO₂-acclimated Micractinium sp. strains from eutrophic reservoir water.@Algal Res.,@34,@126-133.@2018@@Micractinium sp.; High-CO2-acclimation; Vitamin; γ-Aminobutyric acid; C18 unsaturated fatty acid@NIES-4129@NIES4129@NIES-4130@NIES4130
3188@Pröschold, T., Darienko, T., Krienitz, L., Coleman, A. W.@Chlamydomonas schloesseri sp. nov. (Chlamydophyceae, Chlorophyta) revealed by morphology, autolysin cross experiments, and multiple gene analyses.@Phytotaxa,@362,@21-38.@2018@@integrative taxonomy; Chlamydomonas; intraspecific variation; species concept; DNA barcoding@NIES-2462@NIES2462
3189@Pröschold, T., Darienko, T.@The distinctions between Chlamydomonas incerta Pascher and Chlamydomonas globosa J.W. Snow and their taxonomic consequences.@Notulae Algarum,@56@1-4.@2018@@@NIES-2462@NIES2462
3190@Sakamoto, T., Hashimoto, A., Yamaba, M., Wada, N., Yoshida, T., Inoue-Sakamoto, K., Nishiuchi, T., Matsugo, S.@Four chemotypes of the terrestrial cyanobacterium Nostoc commune characterized by differences in the mycosporine‐like amino acids.@Phycol. Res.,@67,@3-11.@2019@@anhydrobiosis; antioxidant; natural product; polymorphism; UV protectant@NIES-2538@NIES2538@NIES-3989@NIES3989@NIES-3990@NIES3990
3191@Guionet, A., Oura, K., Akiyama, H., Hosano, H.@The narrow window of energy application for oil extraction by arc discharge.@J. Appl. Phycol.,@31,@89–96.@2019@@Botryococcus braunii; Hydrocarbons; Biofuel; Matrix; Extraction@NIES-836@NIES836
3192@Gaouda, H., Hamaji, T., Yamamoto, K., Kawai-Toyooka, H., Suzuki, M., Noguchi, H., Minakuchi, Y., Toyoda, A., Fujiyama, A., Nozaki, H., Smith, D. R.@Exploring the limits and causes of plastid genome expansion in volvocine green algae.@Genome Biol. Evol.,@10,@2248-2254.@2018@@Eudorina; genome expansion; mutational hazard hypothesis; Volvox; Yamagishiella@NIES-3984@NIES3984@NIES-3780@NIES3780@NIES-3982@NIES3982
3193@Adachi, Y., Yokoyama, S.-I., Tanahashi, M.@Development of antibacterial and antialgae product using wood biomass distillation (II).@Bull. Ind. Technol. Center Gifu Prefectural Govt.,@11,@9-11 (in Japanese).@2017@@@NIES-227@NIES227@NIES-31@NIES31
3194@Nomura, M. & Ishida, K-I.@Fine-structural observations on siliceous scale production and shell assembly in the testate amoeba Paulinella chromatophora.@Protist,@167,@303-318.@2016@@Paulinella chromatophora; testate amoebae; siliceous scale production; silica deposition vesicle; shell construction; ultrastructure@NIES-4060@NIES4060
3195@Hanschen, E. R., Herron, M. D., Wiens, J. J., Nozaki, H., Michod, R. E.@Multicellularity drives the evolution of sexual traits.@Am. Nat.,@192,@E93-E10.@2018@@sex; volvocine green algae; multicellularity; ancestral state; reconstruction; anisogamy; sexual dimorphism@NIES-653@NIES653@NIES-857@NIES857@NIES-891@NIES891@NIES-875@NIES875@NIES-571@NIES571@NIES-289@NIES289@NIES-3780@NIES3780@NIES-418@NIES418@NIES-421@NIES421@NIES-456@NIES456@NIES-458@NIES458@NIES-460@NIES460@NIES-522@NIES522@NIES-541@NIES541@NIES-544@NIES544@NIES-545@NIES545@NIES-564@NIES564@NIES-566@NIES566@NIES-568@NIES568@NIES-569@NIES569@NIES-572@NIES572@NIES-574@NIES574@NIES-578@NIES578@NIES-582@NIES582@NIES-732@NIES732@NIES-751@NIES751@NIES-851@NIES851@NIES-856@NIES856@NIES-872@NIES872@NIES-876@NIES876@NIES-877@NIES877@NIES-878@NIES878@NIES-880@NIES880@NIES-882@NIES882@NIES-883@NIES883@NIES-892@NIES892@NIES-1038@NIES1038@NIES-1362@NIES1362@NIES-1711@NIES1711@NIES-1713@NIES1713@NIES-2457@NIES2457@NIES-2569@NIES2569@NIES-2738@NIES2738@NIES-3382@NIES3382@NIES-3388@NIES3388@NIES-3782@NIES3782@NIES-543@NIES543
3196@Nomura, M., Nakayama, T., Ishida, K-I.@Detailed process of shell construction in the photosynthetic testate amoeba Paulinella chromatophora (Euglyphid, Rhizaria).@J. Eucaryot. Microbiol.,@61,@317-321.@2014@@cell covering; LysoTracker; protist; siliceous; scale; time-lapse video microscopy@NIES-4060@NIES4060
3197@Hunsperger, H. M., Randhawa, T., Cattolico, R. A.@Extensive horizontal gene transfer, duplication, and loss of chlorophyll synthesis genes in the algae.@BMC Evol. Biol.,@15,@16 (article ID).@2015@@Chlorophyll synthesis; Horizontal gene transfer; Endosymbiotic gene transfer; Gene duplication; Algae; Protochlorophyllide@NIES-1363@NIES1363@NIES-293@NIES293@NIES-2140@NIES2140@NIES-484@NIES484@NIES-360@NIES360
3198@Turmel, M., Otis, C., Lemieux, C.@Dynamic evolution of the chloroplast genome in the Green algal classes Pedinophyceae and Trebouxiophyceae.@Genome Biol. Evol.,@7,@2062-2082.@2015@@Trebouxiophyceae; Pedinophyceae; plastid genomics, genome; rearrangements; inverted repeat; horizontal transfer; repeats; introns@NIES-1824@NIES1824
3199@Wacklin, P., Hoffmann, L., Komárek, J.@Nomenclatural validation of the genetically revised cyanobacterial genus Dolichospermum (Ralfs ex Bornet et Flahault) comb. nova.@Fottea,@9,@59-64.@2009@@Cyanobacteria; Anabaena; Dolichospermum; taxonomy; nomenclatoric validation@NIES-81@NIES81
3200@Yoshida-Takashima, Y., Yoshida, M., Ogata, H., Nagasaki, K., Hiroishi, S., Yoshida, T.@Cyanophage infection in the bloom-forming cyanobacteria Microcystis aeruginosa in surface freshwater.@Microbes Environ.,@,@350-355.@2012@@cyanobacteria; cyanophage; non-bleaching gene (nblA); phycobilisome; Microcystis@NIES-843@NIES843@NIES-298@NIES298
3201@Miyagishima, S., Wei, J. L., Nozaki, H., Hirooka, S.@Cyadidiales: Evolution and habitats.@In Cyanidioschyzon merolae: A New Model Eukaryote for Cell and Organelle Biology, Eds. by Kuroiwa, T., Miyagishima, S., Matsunaga, S., Sato, N., Nozaki, H., Tanaka, K., Misumi, O., Springer Singapore,@@pp. 3-15.@2018@@@NIES-3377@NIES3377
3202@Yoshida, Y., Imoto, Y., Yagisawa, F.@Isolation of dividing organelles from Cyanidioschyzon merolae cells.@In Cyanidioschyzon merolae: A New Model Eukaryote for Cell and Organelle Biology, Eds. by Kuroiwa, T., Miyagishima, S., Matsunaga, S., Sato, N., Nozaki, H., Tanaka, K., Misumi, O., Springer Singapore,@@pp. 43-57.@2018@@@NIES-3377@NIES3377
3203@Nozaki, H., Kanesaki, Y., Matsuzaki, M., Hirooka, S.@The 100%-complete nuclear and organellar genome sequences of the ultrasmall red algal species Cyanidioschyzon merolae 10D.@In Cyanidioschyzon merolae: A New Model Eukaryote for Cell and Organelle Biology, Eds. by Kuroiwa, T., Miyagishima, S., Matsunaga, S., Sato, N., Nozaki, H., Tanaka, K., Misumi, O., Springer Singapore,@@pp. 61-72.@2018@@@NIES-3377@NIES3377
3204@Kawase, Y.2, Imamura, S., Tanaka, K.@A MYB-type transcription factor, MYB2, represses light-harvesting protein genes in Cyanidioschyzon merolae.@FEBS Lett.,@591,@2439-2448.@2017@@dark acclimation; MYB-type transcription factor; phycobilisome@NIES-3377@NIES3377
3205@Rademacher, N., Wrobel, T. J., Rossoni, A. W., Kurz, S., Bräutigam, A., Weber, A. P. M., Eisenhut, M.@Transcriptional response of the extremophile red alga Cyanidioschyzon merolaee to changes in CO₂ concentrations.@J. Plant Physiol.,@217,@49-56.@2017@@Cyanidioschyzon merolae; RNA-seq; CO₂ limitation; Photorespiration@NIES-3377@NIES3377
3206@Ohmura, Y., Takeshita, S., Kawachi, M.@Photobiont diversity within populations of a vegetatively reproducing lichen, Parmotrema tinctorum, can be generated by photobiont switching.@Symbiosis,@77,@59–72.@2019@@Lichenized fungi; Microalgae; rbcL; Trebouxia corticola; Selectivity; Vegetative reproduction @NIES-1446@NIES1446@NIES-1447@NIES1447@NIES-1448@NIES1448@NIES-1449@NIES1449@NIES-1450@NIES1450@NIES-1451@NIES1451@NIES-1452@NIES1452@NIES-1453@NIES1453@NIES-1454@NIES1454@NIES-1455@NIES1455
3207@Muñoz, H. E, Li, M., Riche, C. T., Nitta, N., Diebold, E., Lin, J., Owsley, K., Bahr, M., Goda, K., Di Carlo, D.@Single-cell analysis of morphological and metabolic heterogeneity in Euglena gracilis by fluorescence imaging flow cytometry.@Anal. Chem.,@90,@11280–11289.@2018@@@NIES-48@NIES48
3208@Tang, X. M., Krausfeldt, L. E., Shao, K., LeCleir, G. R., Stough, J. M. A., Gao, G., Boyer, G. L, Zhang, Y., Paerl, H. W., Qin, B., Wilhelm, S. W.@Seasonal gene expression and the ecophysiological implications of toxic Microcystis aeruginosa blooms in Lake Taihu.@Environ. Sci. Technol.,@52,@11049–11059.@2018@@@NIES-843@NIES843
3209@Tokodi, N., Drobac, D., Meriluoto, J., Lujić, J., Marinović, Z., Važić, T., Nybom, S., Simeunović, J., Dulić, T., Lazić, G., Petrović, T., Vuković-Gačić, B., Sunjog, K., Kolarević, S., Kračun-Kolarević, M., Subakov-Simić, G., Miljanović, B., Codd, GA., Svirčev, Z.@Cyanobacterial effects in Lake Ludoš, Serbia - Is preservation of adegraded aquatic ecosystem justified?@Sci. Total Environ.,@635,@635,@2018@@Wetland; Cyanobacteria; Cyanotoxin; Eutrophication; Serbia@NIES-107@NIES107
3210@Magonono, M., Oberholster, P. J., Addmore, S., Stanley, M., Gumbo, J. R.@The presence of toxic and non-toxic Cyanobacteria in the sediments of the Limpopo River Basin: Implications for human health.@Toxins,@10,@269 (article ID).@2018@@cyanobacteria; cyanotoxins; nutrient enrichment; akinetes; harmful algal blooms; PCR; phylogenetic analyses@NIES-4074@NIES4074@NIES-4103@NIES4103
3211@Inoue-Sakamoto, K., Tanji, Y., Yamaba, M., Natsume, T., Masaura, T., Asano, T., Nishiuchi, T., Sakamoto, T.@Characterization of extracellular matrix components from the desiccation-tolerant cyanobacterium Nostoc commune.@J. Gen. Appl. Microbiol.,@64,@15-25.@2018@@anhydrobiosis; desiccation tolerance; extracellular polysaccharide (EPS); superoxide dismutase (SOD); water stress protein (WspA)@NIES-2538@NIES2538@NIES-3989@NIES3989@NIES-3990@NIES3990@NIES-3991@NIES3991@NIES-2108@NIES2108
3212@Chamizo, S., Mugnai, G., Rossi, F., Certini, G., De Philippis, R.@Cyanobacteria inoculation improves soil stability and fertility on different textured soils: Gaining insights for applicability in soil restoration.@Front. Environ. Sci.,@6,@49 (article ID).@2018@@autotrophic organisms; biocrust development; exopolysaccharides; organic carbon; soil nitrogen, soil; degradation@NIES-1956@NIES1956@NIES-2121@NIES2121
3213@Yang, A., Narechania, A., Kim, E.@Rickettsial endosymbiont in the “early‐diverging” streptophyte green alga Mesostigma viride.@J. Phycol.,@52,@219-229.@2016@@endosymbiosis; green algae; Mesostigma ; Rickettsiales; symbiosis; transcriptome@NIES-475@NIES475@NIES-995@NIES995@NIES-296@NIES296
3214@Yu, Y., Zeng, Y., Li, J., Yang, C., Zhang, X., Luo, F., Dai, X.@An algicidal Streptomyces amritsarensis strain against Microcystis aeruginosa strongly inhibits microcystin synthesis simultaneously.@Sci. Total Environ.,@650,@34-43.@2019@@Harmful algal blooms; Microcystins; Algicidal activity; Streptomyces amritsarensis@NIES-843@NIES843@NIES-44@NIES44@NIES-90@NIES90
3215@Sheng, B., Fan, F., Huang, J. K., Bai, W. M., Wang, J., Li, S. L., Li, W., Wan, M. X., Li, Y. G.@Investigation on models for light distribution of Haematococcus pluvialis during astaxanthin accumulation stage with an application case.@Algal Res.,@33,@182-189.@2018@@Light attenuation model; Haematococcus pluvialis; CFD;Induction experiment@NIES-144@NIES144
3216@Manali, K. M., Arunraj, R., Ramakrishnan, G. S., Ramya, M.@Development of sensitive and specific multiplex PCR method for the detection of microcystin producing cyanobacteria in spirulina food supplements.@Food Sci. Biotechnol.,@28,@609-614.@2019@@Spirulina food supplement; Multiplex PCR; Microcystin; Arthrospira platensis; Cyanotoxin@NIES-843@NIES843
3217@Nakada, T., Tsuchida, Y., Tomita, M.@Improved taxon sampling and multigene phylogeny of unicellular chlamydomonads closely related to the colonial volvocalean lineage Tetrabaenaceae-Goniaceae-Volvocaceae (Volvocales, Chlorophyceae).@Mol. Phylogenet. Evol.,@130@1-8.@2019@@Alga; Chlamydomonas; Colony evolution; Multigene phylogeny; Vitreochlamys; Zoosporangium@NIES-456@NIES456@NIES-571@NIES571@NIES-883@NIES883@NIES-4248@NIES4248@NIES-569@NIES569@NIES-437@NIES437@NIES-460@NIES460@NIES-474@NIES474@NIES-541@NIES541@NIES-544@NIES544@NIES-545@NIES545@NIES-564@NIES564@NIES-566@NIES566@NIES-666@NIES666@NIES-867@NIES867@NIES-880@NIES880@NIES-1362@NIES1362@NIES-3383@NIES3383@NIES-4241@NIES4241@NIES-4242@NIES4242@NIES-4243@NIES4243@NIES-4244@NIES4244@NIES-4245@NIES4245@NIES-4246@NIES4246@NIES-4247@NIES4247@NIES-4249@NIES4249@NIES-4250@NIES4250@NIES-4251@NIES4251@NIES-4252@NIES4252@NIES-4253@NIES4253@NIES-4254@NIES4254@NIES-4255@NIES4255@NIES-4256@NIES4256@NIES-3388@NIES3388@NIES-721@NIES721@NIES-1858@NIES1858@NIES-737@NIES737@NIES-725@NIES725@NIES-879@NIES879@NIES-887@NIES887@NIES-735@NIES735@NIES-882@NIES882@NIES-654@NIES654@NIES-2567@NIES2567@NIES-418@NIES418@NIES-2462@NIES2462@NIES-577@NIES577@NIES-728@NIES728
3218@Takeshita, T., Ivanov, I. N., Oshima, K., Ishii, K., Kawamoto, H., Ota, S., Yamazaki, T., Hirata, A., Kazama, Y., Abe, T., Hattori, M., Bišová,K., Zachleder, V., Kawano, S.@Comparison of lipid productivity of Parachlorella kessleri heavy-ion beam irradiation mutant PK4 in laboratory and 150-L mass bioreactor, identification and characterization of its genetic variation.@Algal Res.,@35,@416-426.@2018@@Parachlorella kessleri; Nutrient dilution; 150-L mass cultivation; Whole genome sequencing; Mutation identification; Single-nucleotide polymorphism@NIES-2152@NIES2152
3219@Li, M., van Zee, M., Riche, C. T., Tofig, B., Gallaher, S. D., Merchant, S. S., Damoiseaux, R., Goda, K., Di Carlo, D.@A gelatin microdroplet platform for high‐throughput sorting of hyperproducing single‐cell‐derived microalgal clones.@Small,@14,@1803315 (article ID).@2018@@@NIES-48@NIES48
3220@Yamagishi, T., Fuchida, S., Katsumata, M., Horie, Y., Mori, F., Kitayama, A., Kawachi, M., Koshikawa, H., Nozaki, T., Kumagai, H., Ishibashi, J-I., Tatarazako, N.@Evaluation of the toxicity of leaches from hydrothermal sulfide deposits by means of a delayed fluorescence-based bioassay with the marine cyanobacterium Cyanobium sp. NIES-981.@Ecotoxicology,@27,@1303–1309.@2018@@Cyanobium sp.; Deep-sea mining; Delayed fluorescence; Ecotoxicological bioassay; Heavy metal@NIES-981@NIES981
3221@Widyaningrum, D., Iida, D., Tanabe, Y., Hayashi, Y., Kurniasih, S. D., Ohama, T.@Acutely induced cell mortality in the unicellular green alga Chlamydomonas reinhardtii (Chlorophyceae) following exposure to acrylic resin nanoparticles.@J. Phycol.,@55,@118-133.@2019@@abnormal swimming behavior; cell mortality; cell wall damage; Chlamydomonas rein-hardtii; poly(isobutyl-cyanoacrylate) nanoparticles; ROS@NIES-456@NIES456@NIES-144@NIES144@NIES-571@NIES571@NIES-858@NIES858@NIES-35@NIES35@NIES-737@NIES737@NIES-2578@NIES2578@NIES-1848@NIES1848@NIES-2201@NIES2201@NIES-1022@NIES1022@NIES-438@NIES438@NIES-2209@NIES2209@NIES-2208@NIES2208@NIES-362@NIES362@NIES-732@NIES732@NIES-545@NIES545@NIES-2280@NIES2280@NIES-2150@NIES2150@NIES-2169@NIES2169@NIES-432@NIES432@NIES-418@NIES418@NIES-421@NIES421@NIES-2202@NIES2202@NIES-2462@NIES2462@NIES-1048@NIES1048@NIES-2352@NIES2352@NIES-2212@NIES2212
3222@Jin, J., Zhang, X., Kusui, T.@Preliminary toxicity Assessment of combined Sewer overflows in Toyama, Japan.@J. Water Environ. Technol.,@16,@185-198.@2018@@combined sewer overflows (CSOs); toxicity identification evaluation (TIE); toxicity test; heavy metals; aquatic organisms@NIES-35@NIES35
3223@Tani, Y. & Tsumura, H.@Screening for tocopherol-producing microorganisms and α-tocopherol production by Euglena gracilis Z.@Agric. Biol. Chem.,@53,@305-312.@1989@@@NIES-48@NIES48
3224@Li, M., Muñoz, H. E., Goda, K., Di Carlo, D.@Shape-based separation of microalga Euglena gracilis using inertial microfluidics.@Sci Rep,@7,@10802 (article ID).@2017@@@NIES-48@NIES48
3225@Aoyama, K., Iwahori, K., Miyata, N.@Application of Euglena gracilis cells to comet assay: evaluation of DNA damage and repair.@Mutat. Res. Genet. Toxicol. Environ. ,@538,@155-162.@2003@@Comet assay; Single-cell gel electrophoresis; Euglena gracilis; DNA damage; DNA repair@NIES-49@NIES49
3226@Iwahori, K., Miyata, N., Yamamoto, Y., Sone, D., Aoyama, K.@Normalization of DNA damage indices in comet assay for comparing with various mutagenicity tests.@Jpn. J. Water Treat. Biol., @40,@63-70.@2004@@comet assay; tail moment; normalization; mutagenicity test@NIES-49@NIES49
3227@Lee, C., Ahn, J.-W., Kim, J.-B., Kim, J. Y., Choi, Y.-E.@Comparative transcriptome analysis of Haematococcus pluvialis on astaxanthin biosynthesis in response to irradiation with red or blue LED wavelength.@World J. Microbiol. Biotechnol.,@34,@96 (article ID).@2018@@Gene expression; Carotenoid biosynthesis; Differentially expressed genes; Microalgae; LED wavelength@NIES-144@NIES144
3228@Takahashi, A., Shibata, N., Nishikawa, S., Ohnishi, K., Ishioka, N., Ohnishi, T.@UV-B light induces an adaptive response to UV-C exposure via photoreactivation activity in Euglena gracilis.@Photochem. Photobiol. Sci.,@5,@467-471.@2006@@@NIES-48@NIES48
3229@Thiel, T., Pratte, B. S., Zhong, J., Goodwin, L., Copeland, A., Lucas, S., Han, C., Pitluck, S., Land, M. L., Kyrpides, N. C., Woyke, T.@Complete genome sequence of Anabaena variabilis ATCC 29413.@Stand. Genomic Sci.,@9,@562-573.@2014@@Nitrogen Fixation; Joint Genome Institute; Heterotrophic Growth; Anabaena variabilis; Cyanobacterial Genome@NIES-2095@NIES2095
3230@Pröschold, T., Harris, E. H., Coleman, A. W.@Portrait of a species: Chlamydomonas reinhardtii.@Genetics, @170,@1601-1610.@2005@@Chlamydomonas; Internal Transcribed Spacer; phylogenetics; population genetics; ribosomal cistrons@NIES-2238@NIES2238@NIES-2237@NIES2237
3231@Kuang, X., Peng, L., Chen, A., Xeng, Q., Luo, S., Shao, J.@Enhancement mechanisms of copper(II) adsorption onto kaolinite by extracellular polymeric substances of Microcystis aeruginosa (cyanobacterium).@Int. Biodeterior. Biodegrad.,@138,@8-14.@2019@@Microcystis aeruginosa; Extracellular polymeric substances; Copper(II); Adsorption kinetics; Adsorption isotherm@NIES-843@NIES843
3232@Wei, K., Amano, Y., Machida, M., Asukabe, H., Harada, K.@Effects of light and potassium ion on buoyancy regulation with gas vesicle in a cyanobacterium Microcystis aeruginosa NIES-843.@Water Air Soil Pollut.,@229,@352 (article ID).@2018@@Microcystis; Gas vesicle; Buoyancy; Sedimentation@NIES-843@NIES843
3233@Yamada, K., Katsura, H., Noël, M.-H., Ichinomiya, M., Kuwata, A., Sato, S., Yoshikawa, S.@Ontogenetic analysis of siliceous cell wall formation in Triparma laevis f. inornata (Parmales, Stramenopiles).@J. Phycol.,@55,@196-203.@2019@@annulus; diatom; pattern center; scale; sternum@NIES-2565@NIES2565
3234@Zhu, S., Qin, L., Feng, P., Shang, C., Wang, Z., Yuan, Z.@Treatment of low C/N ratio wastewater and biomass production using co-culture of Chlorella vulgaris and activated sludge in a batch photobioreactor.@Bioresour. Technol.,@274,@313-320.@2019@@Microalgae; Activated sludge; Co-culture system; Nutrient recovery; Biomass valorization@NIES-227@NIES227
3235@Partensky, F., Six, C., Ratin, M., Garczarek, L., Vaulot, D., Probert, I., Calteau, A., Gourvil, P., Marie, D., Grébert, T., Bouchier, C., Le Panse, S., Gachenot, M., Rodríguez, F., Garrido, J. L.@A novel species of the marine cyanobacterium Acaryochloris with a unique pigment content and lifestyle.@Sci Rep,@8,@9142 (article ID).@2018@@@NIES-3840@NIES3840
3236@Kuwata, A., Yamada, K., Ichinomiya, M., Yoshikawa, S., Tragin, M., Vaulot, D., Lopes dos Santos, A.@Bolidophyceae, a sister picoplanktonic group of diatoms – a review.@Front. Mar. Sci.,@5,@370 (article ID).@2018@@bolidophyceae; parmales; diatoms; genetic diversity; mitosis; geographical distribution; seasonal dynamics and silicification@NIES-3371@NIES3371@NIES-2682@NIES2682@NIES-2565@NIES2565@NIES-3699@NIES3699@NIES-3700@NIES3700@NIES-3701@NIES3701@NIES-3369@NIES3369@NIES-3370@NIES3370
3237@Nakada, T.@Methods for supporting cover slip during light microscopy of unfixed microalgae, using clothing fibers or adhesive tapes.@Jpn. J. Phycol. (Sôrui),@66,@157-163 (in Japanese with English summary).@2018@@adhesive tape; chemical fiber; light microscopy; microalgae; slide preparation; unfixed cells@NIES-544@NIES544@NIES-1849@NIES1849
3238@Binzer, S. B., Svenssen, D. K., Daugbjerg, N., Alves-de-Souzade, C., Pinto, E., Hansen, P. J., Larsen, T. O., Varga, E.@A-, B- and C-type prymnesins are clade specific compounds and chemotaxonomic markers in Prymnesium parvum.@Harmful Algae,@81,@10-17.@2019@@Chemotaxonomy; Prymnesium parvum; ITS-sequencing; High resolution mass spectrometry; Prymnesin@NIES-1017@NIES1017@NIES-1812@NIES1812@NIES-1018@NIES1018
3239@Zhou, L., Chen, G., Cui, N., Pan, Q., Song, X., Zou, G.@Allelopathic effects on Microcystis aeruginosa and allelochemical identification in the cuture solutions of typical artificial floating-bed plants.@Bull. Environ. Contam. Toxicol.,@102,@115–121.@2019@@Allelopathy; Cyperus alternifolius; Canna generalis; Microcystis aeruginosa; Allelochemicals@NIES-44@NIES44
3240@Cunningham, B. R., Greenwold, M. J., Lachenmyer, E. M., Heidenreich, K, M., Davis, A. C., Dudycha, J. L., Richardson, T. L.@Light capture and pigment diversity in marine and freshwater cryptophytes.@J. Phycol.,@55,@552-564.@2019@@@NIES-698@NIES698@NIES-702@NIES702@NIES-697@NIES697@NIES-701@NIES701@NIES-708@NIES708
3241@Sun, L. W., Jiang, W. J.4, Zhang, J. Y., Wang, W. Q., Du, Y., Sato, H., Kawachi, M., Yu, R.@Identification and detection sensitivity of Microcystis aeruginosa from mixed and field samples using MALDI-TOF MS.@Environ. Monit. Assess.,@190,@712 (article ID).@2018@@Microcystis aeruginosa; MALDI-TOFMS; Cyanobacterial bloom; Ribosomal protein@NIES-206@NIES206@NIES-230@NIES230@NIES-843@NIES843@NIES-1639@NIES1639
3242@Tomita, Y., Takeya, M., Suzuki, K., Nitta, N., Higuchi, C., Marukawa-Hashimoto, Y., Osanai, T.@Amino acid excretion from Euglena gracilis cells in dark and anaerobic conditions.@Algal Res.,@37,@169-177.@2019@@Amino acid; Anaerobic conditions; Euglena gracilis; Fermentation; Glutamate; Glutamine; Metabolite analysis@NIES-48@NIES48
3243@Higo, A., Kawashima, T., Borg, M., Zhao, M., López-Vidriero, I., Sakayama, H., Montgomery, S, A., Sekimoto, H., Hackenberg, D., Shimamura, M., Nishiyama, T., Sakakibara, K., Tomita, Y., Togawa, T., Kunimoto, K., Osakabe, A., Suzuki, Y., Yamato, K. T., Ishizaki, K., Nishihama, R., Kohchi, T., Franco-Zorrilla, J. M., Twell, D., Berger, F., Araki, T.@Transcription factor DUO1 generated by neo-functionalization is associated with evolution of sperm differentiation in plants.@Nat. Commun.,@9,@5283 (article ID).@2018@@@NIES-68@NIES68@NIES-67@NIES67
3244@Hamana, K., Kobayashi, M., Furuchi, T., Hayashi, H., Niitsu, M.@Polyamine distribution profiles in unicellular and multicellular red algae (phylum Rhodophyta) —Detection of 1,6-diaminohexane, aminobutylcadaverine, canavalmine and aminopropylcanavalmine.—@Microb. Resour. Syst.,@34,@83-91.@2018@@aminobutylcadaverine; aminopropylcanavalmine; canavalmine; diaminohexane; polyamine; red algae; Rhodophyta@NIES-2662@NIES2662@NIES-551@NIES551@NIES-1032@NIES1032@NIES-1572@NIES1572@NIES-1957@NIES1957@NIES-2138@NIES2138@NIES-2140@NIES2140@NIES-2636@NIES2636@NIES-2742@NIES2742
3245@Hamana, K., Kobayashi, M., Furuchi, T., Hayashi, H., Niitsu, M.@Polyamine analysis of unicellular, colonial, and multicellular green algae —Detection of aminobutylcadaverine, N¹-aminopentylspermidine, N⁸-aminopentylspermidine, and penta-amines.—@Microb. Resour. Syst.,@34,@73-82.@2018@@aminobutylcadaverine; aminopentylspermidine; green alga; penta-amine; polyamine; thermospermine@NIES-2235@NIES2235@NIES-18@NIES18@NIES-35@NIES35@NIES-242@NIES242@NIES-691@NIES691@NIES-735@NIES735@NIES-1271@NIES1271@NIES-1278@NIES1278@NIES-2187@NIES2187@NIES-2261@NIES2261@NIES-2540@NIES2540@NIES-2572@NIES2572@NIES-3983@NIES3983@NIES-2185@NIES2185
3246@Zhang, H., Meng, G., Mao, F., Li, W., He, Y., Gin, K. Y.-H., Ong, C. N.@Use of an integrated metabolomics platform for mechanistic investigations of three commonly used algaecides on cyanobacterium, Microcystis aeruginosa.@J. Hazard. Mater.,@367,@120-127.@2019@@Metabolomics; Mass spectrometry; Algaecides; Mechanisms; Untargeted analysis@NIES-843@NIES843
3247@Mathiot, C., Ponge, P., Gallard, B., Sassi, J.-F., Delrue, F., Le Moigne, N.@Microalgae starch-based bioplastics: screening of ten strains and plasticization of unfractionated microalgae by extrusion.@Carbohydr. Polym.,@208/,@142-151.@2019@@Microalgae; Bioplastics; Starch; Plasticization; Extrusion@NIES-2152@NIES2152@NIES-2195@NIES2195@NIES-2280@NIES2280@NIES-2173@NIES2173@NIES-227@NIES227@NIES-94@NIES94
3248@Higuchi, S., Sugahara, F., Pascual-Anaya, J., Takagi, W., Oisi, Y., Kuratani, S.@Inner ear development in cyclostomes and evolution of the vertebrate semicircular canals.@Nature,@565,@347–350.@2019@@@NIES-3374@NIES3374
3249@Poli, M., Ruiz-Olvera, P., Nalca, A., Ruiz, S., Livingston, V., Frick, O., Dyer, D., Schellhase C., Raymond, J., Kulis, D., Anderson, D., McGrath, S., Deeds, J.@Toxicity and pathophysiology of palytoxin congeners after intraperitoneal and aerosol administration in rats.@Toxicon,@150,@235-250.@2018@@Palytoxin congeners; Intraperitoneal administration; Aerosol administration; Lethality; Tissue histopathology; Rats@NIES-3351@NIES3351
3250@Yeo, B.-S., Chu, W.-L., Wong, C.-Y., Kok, Y.-Y., Phang, S.-M., Tan, B.-K., Mustafa, E. M.@Combined effects of glufosinate ammonium and temperature on the growth, photosynthetic pigment content and oxidative stress response of Chlorella sp. and Pseudokirchneriella subcapitata.@J. Appl. Phycol.,@30,@3043–3055.@2018@@Glufosinate ammonium; Temperature; Herbicides; Chlorella; Pseudokirchneriella subcapitata@NIES-35@NIES35
3251@Higuchi, R., Song, C., Hoshina, R., Suzaki, T.@Endosymbiosis-related changes in ultrastructure and chemical composition of Chlorella variabilis (Archaeplastida, Chlorophyta) cell wall in Paramecium bursaria (Ciliophora, Oligohymenophorea).@Eur. J. Protistol.,@66,@149-155.@2018@@Cell wall; Chlorella variabilis; GlycosaminoglycansParamecium bursaria; Symbiosis@NIES-3374@NIES3374
3252@Ghosh, R., Makam, R., Krishnamurthy, V.@Effect of critical parameters on biomass yield from Botryococcus braunii by Response surface methodology.@Chem. Sci. Rev. Lett.,@7,@409-420.@2018@@Bio mass; Botryococcus Braunii; Microalgae; Response; Surface Methodology@NIES-2199@NIES2199
3253@Kimura, S., Yamada, T., Ban, S., Koyama, M., Toda, T.@Nutrient removal from anaerobic digestion effluents of aquatic macrophytes with the green alga, Chlorella sorokiniana.@Biochem. Eng. J., @142,@170-177.@2019@@Chlorella sorokiniana; anaerobic digestion effluent; maximum algal yield; nutrient removal rate; aquatic macrophytes@NIES-2173@NIES2173
3254@Patel, A., Chaudhary, S., Alam Syed, B., Gami, B., Patel, P.@Rbcl marker based approach for molecular identification of Arthrospira and Dunaliella isolates from non-axenic cultures.@J. Genet. Genetic Engine,@2,@24-34.@2018@@Arthrospira; Dunaliella; Microalgae; Molecular identification; non-axenic culture; rbcL gene marker@NIES-637@NIES637
3255@Seto, K. & Degawa, Y.@Collimyces mutans gen. et sp. nov. (Rhizophydiales, Collimycetaceae fam. nov.), a new chytrid parasite of Microglena (Volvocales, clade Monadinia).@Protist,@169,@507-520.@2018@@Chytrid; Collimyces mutans; Microglena; parasite; Rhizophydiales; zoospore ultrastructure@NIES-2743@NIES2743@NIES-858@NIES858@NIES-2220@NIES2220@NIES-2235@NIES2235@NIES-755@NIES755@NIES-2744@NIES2744
3256@Chamizo, S., Adessi, A., Mugnai, G., Simiani, A., De Philippis, R.@Soil type and cyanobacteria species influence the macromolecular and chemical characteristics of the polysaccharidic matrix in induced biocrusts.@Microb. Ecol.,@78,@482–493.@2019@@Biological soil crust; Cyanobacteria inoculation; Molecular weight; Monosaccharide composition; Loosely bound; EPS; Tightly bound EPS@NIES-1956@NIES1956@NIES-2121@NIES2121
3257@Choi, H. I., Lee, J. S., Choi, J. W., Shin, Y. S., Sung, Y. J., Hong, M. E., Kwak, H. S., Kim, C. Y., Sim, S. J.@Performance and potential appraisal of various microalgae as direct combustion fuel.@Bioresour. Technol.,@273,@341-349.@2019@@Microalgae; Solid fuel; Direct combustion; The holistic analyses; Negative emissions@NIES-144@NIES144
3258@Tamamizu, K. & Kumazaki, S.@Spectral microscopic imaging of heterocysts and vegetative cells in two filamentous cyanobacteria based on spontaneous Raman scattering and photoluminescence by 976 nm excitation.@Biochim. Biophys. Acta-Bioenerg.,@1860,@78-88.@2019@@Heterocystous cyanobacteria; Raman scattering microscopy; Anabaena variabilis; Rivularia; Photosystems; Thylakoid membranes@NIES-2095@NIES2095@NIES-2160@NIES2160
3259@Boonmak, P., Liu, X., Ban, S., Sanoamuang, L.@Effects of different algal diets and carbon supplies on larval development, growth and survival in the freshwater copepod Mongolodiaptomus malaindosinensis (Copepoda: Calanoida).@Plankton Benthos Res.,@13,@163-172.@2018@@Chlamydomonas reinhardtii; Cryptomonas tetrapyrenoidosa; post-embryonic development; tropical copepod; zooplankton@NIES-282@NIES282
3260@Oliveira, E. D. C. de, Cunha, A. C. da, Silva, N. B. da, Castelo-Branco, R., Morais, J., Schneider, M. P. C., Faustino, S. M. M., Ramos, V., Vasconcelos, V.@Morphological and molecular characterization of cyanobacterial isolates from the mouth of the Amazon River.@Phytotaxa,@387,@269-288.@2019@@Amazonia; Limnothrix; Polyphasic approach; Pseudanabaena; 16S rRNA phylogeny; Algae@NIES-512@NIES512@NIES-504@NIES504
3261@Davison, J. R. & Bewley, C. A.@Antimicrobial chrysophaentin analogs identified from laboratory cultures of the marine microalga Chrysophaeum taylorii.@J. Nat. Prod.,@82,@148-153.@2019@@@NIES-1699@NIES1699
3262@Hovde, B. T., Deodato, C. R., Andersen, R. A., Starkenburg, S. R., Barlow, S.B., Cattolico, R.A.@Chrysochromulina: Genomic assessment and taxonomic diagnosis of the type species for an oleaginous algal clade.@Algal Res.,@37,@307-319.@2019@@Haptophyta; Chrysochromulina genome; nad evolution; FtsZ phylogeny; Meiosis; Taxon diagnosis@NIES-562@NIES562
3263@Takeda, F., Suzuki, M., Okamoto, S., Minamiyama, M.@Evaluation of four types of biological treatment processes in wastewater treatment plants with regard to reducing ability of growth-inhibiting effect on alga in summer and winter and characterization of algal growth-inhibiting chemicals.@J. Jpn. Soc. Wat. Environ.,@41,@179-191 (in Japanese with English summary).@2018@@Whole effluent toxicity test; Toxicity identification evaluation; Pseudokirchneriella subcapitata; Wastewater management@NIES-35@NIES35
3264@Matsuzaki, R., Nozaki, H., Takeuchi, N., Hara, Y., Kawachi, M.@Taxonomic re-examination of “Chloromonas nivalis (Volvocales, Chlorophyceae) zygotes” from Japan and description of C. muramotoi sp. nov.@PLoS One,@14,@e0210986 (article ID).@2019@@@NIES-2862@NIES2862@NIES-2380@NIES2380@NIES-4284@NIES4284@NIES-3389@NIES3389@NIES-464@NIES464@NIES-3707@NIES3707@NIES-2563@NIES2563@NIES-2379@NIES2379@NIES-3753@NIES3753
3265@Hamamoto, Y. & Honda, D.@Nutritional intake of Aplanochytrium (Labyrinthulea, Stramenopiles) from living diatoms revealed by culture experiments suggesting the new prey–predator interactions in the grazing food web of the marine ecosystem.@PLoS One,@14,@e0208941 (article ID).@2019@@@NIES-3712@NIES3712@NIES-324@NIES324
3266@Hiramatsu, K., Ideguchi, T., Yonamine, Y., Lee, S. W., Luo, Y., Hashimoto, K., Ito, T., Hase, M., Park, J.-W., Kasai, Y., Sakuma, S., Hayakawa, T., Arai, F., Hoshino, Y., Goda, K.@High-throughput label-free molecular fingerprinting flow cytometry.@Sci. Adv.,@5,@eaau0241 (article ID).@2019@@@NIES-144@NIES144@NIES-4141@NIES4141@NIES-48@NIES48
3267@Lianga, Y., Kaczmarek, M. B., Kasprzak, A. K., Tang, J., Shah, M. M. R., Jin, P., Klepacz-Smółk, A., Cheng, J. J., Ledakowicz, S., Daroch, M.@Thermosynechococcaceae as a source of thermostable C-phycocyanins: properties and molecular insights.@Algal Res.,@35,@223-235.@2018@@Cyanobacteria; Phycocyanin; Thermophile; Thermostability; Phycobilisome; Natural pigment@NIES-2133@NIES2133@NIES-2134@NIES2134
3268@Tanabe, Y. & Yamaguchi, H.@Draft genome sequence of Microcystis aeruginosa NIES-4285, isolated from brackish water (Lake Abashiri, Japan).@Microbiol. Resour. Ann..,@8,@e00001-19 (article ID).@2019@@@NIES-4285@NIES4285
3269@Religia, P., Kato, Y., Fukushima, E. O., Matsuura, T., Muranaka, T., Watanabe, H.@Atrazine exposed phytoplankton causes the production of non-viable 2 offspring on Daphnia magna.@Mar. Environ. Res.,@145,@177-183.@2019@@Atrazine; Daphnia magna; Raphidocelis subcapitata; Risk assessment; Sublethal effects@NIES-35@NIES35
3270@Tsuchikane, Y., Sekimoto, H.@The genus Closterium, a new model organism to study sexual reproduction in streptophytes.@New Phytol.,@221,@99-104.@2019@@charophycean; Closterium; landplants; mating-type; sexual reproduction@NIES-67@NIES67@NIES-69@NIES69
3271@Takaara, T., Sasaki, S., Fujii, M., Ito, H., Masago, Y., Omura, T.@Lectin-stimulated cellular iron uptake and toxin generation in the freshwater cyanobacterium Microcystis aeruginosa.@Harmful Algae,@83,@25-33.@2019@@Microcystis aeruginosa; Lectin; Iron uptake; Toxin production; Polysaccharide@NIES-478@NIES478
3272@Tuji, A. & Niiyama, Y.@The taxonomy of Pseudanabaena（Cyanobacteria） and characters for Jjudging the production of odor compounds.@Jpn. J. Water Treat. Biol., @54,@115-120 (in Japanese with English summary).@2018@@2－MIB; L/W ratio; Phormidium tenue; pigment; Pseudanabaena@NIES-512@NIES512@NIES-4238@NIES4238@NIES-4237@NIES4237@NIES-4063@NIES4063@NIES-4065@NIES4065@NIES-4059@NIES4059@NIES-4062@NIES4062@NIES-4064@NIES4064
3273@Tsuchiya, R., Kihira, M., Sakanoue, Y., Araki, T.@Assesment of inhibition effect on growth of Microcystis aeruginosa by autoclaved water extracts from leaves of 104 woody plant species.@Jpn. J. Limnol.,@79,@41-48 (in Japanese with English summary).@2018@@Microcystis aeruginosa; growth inhibition; leaf extract; woody plants; blue-green algae@NIES-88@NIES88
3274@Kuroda, M., Horino, T., Inoue, D., Morikawa, M., Ike, M.@Biomass production and nutrient removal through cultivation of Euglena gracilis in domestic wastewater.@Jpn. J. Water Treat. Biol., @54,@105-113.@2018@@Euglena gracilis; biomass production; domestic wastewater; nutrient removal@NIES-48@NIES48
3275@Nomura, M., Atsuji, K., Hirose, K., Shiba, K., Yanase, R., Nakayama, T., Ishida, K-I., Inaba, K.@Microtubule stabilizer reveals requirement of Ca²⁺-dependent conformational changes of microtubules for rapid coiling of haptonema in haptophyte algae.@Biol. Open,@8,@bio036590 (article ID).@2019@@Haptophyte; Chrysochromulina; Haptonema; Microtubule; Paclitaxel; Curvature@NIES-4122@NIES4122
3276@Yokono, M., Takabayashi, A., Kishimoto, J., Fujita, T., Iwai, M., Murakami, A., Akimoto, S., Tanaka, A.@The PSI-PSII megacomplex in green plants.@Plant Cell Physiol.,@60,@1098–1108.@2019@@Energy transfer; Nonphotochemical quenching; Photosystem@NIES-2285@NIES2285@NIES-144@NIES144@NIES-303@NIES303@NIES-2541@NIES2541@NIES-296@NIES296
3277@Nagai, M., Hirano, T., Shibata, T.@Phototactic algae-driven unidirectional transport of submillimeter-sized cargo in a microchannel.@Micromachines,@10,@130 (article ID).@2019@@microrobot; phototaxis; Volvox; micro-swimmer; biohybrid system; motion control@NIES-865@NIES865
3278@Misaki, K., Morita, Y., Kobayashi, K., Sugawara, Y., Shimizu, Y., Kusakabe, T.@Evaluation of algal photosynthesis inhibition activity for dissolved organic matter with the consideration of inorganic and coloring constituents.@Chemosphere,@224,@333-342.@2019@@Natural organic matter (NOM); Palse amplitude modulation (PAM); System; Lake Biwa; Wastewater treatment plant (WWTP); Ammonia; Ethyl orange@NIES-2170@NIES2170@NIES-2219@NIES2219
3279@Kamikawa, R., Azuma, T., Ishii, K-I., Matsuno, Y., Miyashita, H.@Diversity of organellar genomes in non-photosynthetic diatoms.@Protist,@169,@351-361.@2018@@ATP synthase complex; mitochondria; Nitzschia; plastids; vitamin B1@NIES-2729@NIES2729@NIES-3576@NIES3576@NIES-3581@NIES3581
3280@Curren, E., Teruaki, Y., Kuwahara, V. S., Leong, S. C. Y.@Rapid profiling of tropical marine cyanobacterial communities.@Reg. Stud. Mar. Sci.,@25,@100485 (article ID).@2019@@Cyanobacteria; MinION-Oxford Nanopore sequencer; Biodiversity; 16S rRNA amplicon sequencing; Long-read sequencing; Coastal waters; Southeast Asia; Monitoring@NIES-843@NIES843@NIES-2481@NIES2481@NIES-25@NIES25@NIES-2135@NIES2135@NIES-22@NIES22@NIES-42@NIES42
3281@Krupnik, T., Wasilewska, W., Drożak, A., Romanowska, E., Zienkiewicz, M.@Application of chloroplast promoters of Cyanidioschyzon merolae for exogenous protein expression.@Algae,@33,@351-358.@2018@@chloroplast promoters; chloroplast transformation; Cyanidioschyzon merolae@NIES-1332@NIES1332@NIES-4696@NIES4696
3282@Hwang, S. W., Choi, H. I., Sim, S. J.@Acidic cultivation of Haematococcus pluvialis for improved astaxanthin production in the presence of a lethal fungus.@Bioresour. Technol.,@278,@138-144.@2019@@Haematococcus pluvialis; Paraphysoderma sedebokerensis; Acidic cultivation; Stress relief; Astaxant@NIES-144@NIES144
3283@Qin, L., Wei, D., Wang, Z., Alam, M. A.@Advantage assessment of mixed culture of Chlorella vulgaris and Yarrowia lipolytica for treatment of liquid digestate of yeast industry and cogeneration of biofuel feedstock.@Appl. Biochem. Biotechnol.,@187,@856–869.@2019@@Mixed culture; Chlorella vulgaris; Yarrowia lipolytica; Yeast industrial wastewater; Liquid digestate@NIES-227@NIES227
3284@Antoshvili, M. Caspy, I., Hippler, M., Nelson, N.@Structure and function of photosystem I in Cyanidioschyzon merolae.@Photosynth. Res.,@139,@499-508.@2019@@Photosynthesis; Photosystem I; Crystal structure; Synechocystis; Cyanobacteria; Membrane complexes@NIES-1084@NIES1084
3285@Tanabe, Y.. & Yamaguchi, H.@Evolutionary history of phycoerythrin pigmentation in the water bloom-forming cyanobacterium Microcystis aeruginosa.@bioRXiv@@@2018b@@@NIES-1211@NIES1211@NIES-4234@NIES4234
3286@Shen, X.-F., Qin, Q.-W., Yan, S.-K., Huang, J.-L., Liu, K., Zhou, S.-B.@Biodiesel production from Chlorella vulgaris under nitrogen starvation in autotrophic, heterotrophic, and mixotrophic cultures.@J. Appl. Phycol.,@31,@1589–1596.@2019@@Fatty acid; Chlorella vulgaris; Chlorophyta; Heterotrophic cultivation; Mixotrophic cultivation; Nitrogen starvation; iTRAQ analysis@NIES-227@NIES227
3287@Han, J.-I., Yao, J., Lee, C., Park, J., Choi, Y.-E.@A novel approach to enhance astaxanthin production in Haematococcus lacustris using a microstructure-based culture platform.@Algal Res.,@39,@101464.@2019@@Haematococcus lacustris; Microfabricated structure; Astaxanthin; ROS; Mechanical stimulation@NIES-144@NIES144
3288@Yamaguchi, H., Suzuki, S., Sano, T., Tanabe, Y., Nakajima, N., Kawachi, M.@Draft genome sequence of Microcystis aeruginosa NIES-98, a non-microcystin-producing cyanobacterium from Lake Kasumigaura, Japan.@GenomeA,@4,@e01187-16 (article ID).@2016@@@NIES-98@NIES98
3289@Chen, M., Tian, L.-L., Ren, C.-Y., Xu, C.-Y., Wang, Y.-Y., Li, L.@Extracellular polysaccharide synthesis in a bloom-forming strain of Microcystis aeruginosa: implications for colonization and buoyancy.@Sci Rep,@9,@1251 (article ID).@2019@@@NIES-204@NIES204@NIES-87@NIES87@NIES-98@NIES98@NIES-2481@NIES2481@NIES-2549@NIES2549@NIES-88@NIES88@NIES-843@NIES843@NIES-298@NIES298
3290@Lin, Y., Ge, J., Zhang, Y., Ling, H., Yan, X., Ping, W.@Monoraphidium sp. HDMA-20 is a new potential source of α-linolenic acid and eicosatetraenoic acid.@Lipids Health Dis.,@18,@56 (article ID).@2019@@PUFA; ALA; ETA; Microalgae; Monoraphidium@NIES-244@NIES244
3291@Ahamefule, S. C., Ogbonna, J. C., Moneke, A. N., Ossai, N. I.@Application of photosynthetic microalgae as efficient pH bio-stabilizers and bio-purifiers in sustainable aquaculture of Clarias gariepinus (African catfish) fry.@Nig. J. Biotech.,@35,@139-150.@2018@@nitrogen removal; ammonia; nitrite; fishery; fish pond@NIES-93@NIES93
3292@Kataoka, H.@Quantitative analysis of tip growth, phototropic responses, and other blue light-dependent photoresponses of Vaucheria.@In Phototropism, Part of the Methods in Molecular Biology book series, Ed. by Yamamoto, K. T., Humana Press, New York, NY,@1924,@pp. 83-120.@2019@@Apical expansion; Aureochrome; Blue light; Branching; Ca2+ ion; Coenocyte; Lightgrowth response; Negative phototropism; Polarotropism; Positive phototropism; Split-field illumination method; Unilateral illumination method; Vaucheria@NIES-2615@NIES2615@NIES-2614@NIES2614
3293@Tokunaga, S., Sanda, S., Uraguchi, Y., Nakagawa, S., Sawayama, S.@Overexpression of the DOF-type transcription factor enhances lipid synthesis in Chlorella vulgaris.@Appl. Biochem. Biotechnol.,@189,@116–128.@2019@@Chlorella vulgaris; DOF transcriptional factor; Transgene; Lipid production@NIES-2170@NIES2170
3294@Dorrell, R. G., Azuma, T., Nomura, M., Audren de Kerdrel, G., Paoli, L., Yang, S., Bowler, C., Ishii, K.-I., Miyashita, H., Gile, G. H., Kamikawa, R.@Principles of plastid reductive evolution illuminated by nonphotosynthetic chrysophytes.@Proc. Natl. Acad. Sci. U. S. A.,@116,@6914-6923.@2019@@heterotrophy; ochrophyte; phylogenomics; dual targeting; protist@NIES-1846@NIES1846
3295@Matsunaga, N., Uehara, A., Murase, N., Kuriyoma, A.@Cryopreservation of Spirulina (Arthrospira) platensis NIES-46 by snap-freezing considering trichome morphology.@Cryobiology and Cryotechnology,@64,@75-83.@2018@@Spirulina (Arthrospira) platensis; cyanobacteria; snap-freezing; cryopreservation; trichome morphology@NIES-46@NIES46
3296@Okamoto, M., Mori, A., Maeda, A., Sakamoto, S., Yamaguchi, M.@Effects of temperature and salinity on the growth of toxic dinoflagellate Alexandrium ostenfeldii (Dinophyceae).@Bull. Tottori Pre. Environ. Sanitation Res. Center,@58,@11-16 (in Japanese with English summary).@2019@@@NIES-4274@NIES4274
3297@Stockenreiter, M., Haupt, F., Graber, A. K., Seppälä, J., Spilling, K., Tamminen, T., Stibor, H.@Functional group richness: implications of biodiversity for light use and lipid yield in microalgae.@J. Phycol., @49,@838-847.@2013@@Algal neutral lipids; Biofuel; Diversity; Functional groups; Light use; Nile Red; PAR absorbance; Phytoplankton; Resource-use-efficiency; Species richness@NIES-4282@NIES4282
3298@Steudel, B., Hector, A., Friedl, T., Löfke, C., Lorenz, M., Wesche, M., Kessler, M., Gessner, M.@Biodiversity effects on ecosystem functioning change along environmental stress gradients.@Ecol. Lett.,@15,@1397-1405.@2012@@@NIES-4282@NIES4282
3299@Stockenreiter, M., Graber, A. K., Haupt, F., Stibor, H.@The effect of species diversity on lipid production by micro-algal communities.@J. Appl. Phycol.,@24,@45-54.@2012@@Biofuel; Complementarity; Diversity; Lipid; Micro-algae; Resource-use efficiency@NIES-4282@NIES4282
3300@Lang, I., Hodac, L., Friedl, T., Feussner, I.@Fatty acid profiles and their distribution patterns in microalgae: a comprehensive analysis of more than 2000 strains from the SAG culture collection.@BMC Plant Biol.,@11,@124 (article ID).@2011@@Fatty Acid Profile; Spirulina; Fatty Acid Pattern; Multiple Strain; Canonical Variate Analysis@NIES-4282@NIES4282
3301@Steudel, B., Hallmann, C., Lorenz, M., Abrahamczyk, S., Prinz, K., Herrfurth, C., Feussner, I., Martini, J. W., Kessler, M.@Contrasting biodiversity–ecosystem functioning relationships in phylogenetic and functional diversity.@New Phytol.,@212,@409-420.@2016@@algae; allelopathy; biodiversityeffects; chemical compounds; productivity; species richness@NIES-4282@NIES4282
3302@Altenburger, R., Schmitt-Jansen, M., Riedl, J.@Bioassays with unicellular algae: deviations from exponential growth and its implications for toxicity test results.@J. Environ. Qual.,@37,@16-21.@2008@@@NIES-4282@NIES4282
3303@Eisentraeger, A., Dott, W., Klein, J., Hahn, S.@Comparative studies on algal toxicity testing using fluorometric microplate and Erlenmeyer flask growth-inhibition assays.@Ecotox. Environ. Safe.,@54,@346-354.@2003@@Algal growth-inhibition assay; Algal quantification; In vivo chlorophyll fluorescence; Testing volumina; Microplate; Evaluation parameters; Toxicological endpoints; EC value; Reference toxicants@NIES-4282@NIES4282
3304@Ma, M., Zhu, W., Wang, Z., Witkamp, G. J.@Accumulation, assimilation and growth inhibition of copper on freshwater alga (Scenedesmus subspicatus 86.81 SAG) in the presence of EDTA and fulvic acid.@Aquat. Toxicol.,@63,@221-228.@2003@@Copper; Toxicity; Alga; FIAM; BLM@NIES-4282@NIES4282
3305@Shi, Y., Liu, Y., Zhang, J., Gao, B.@Regulation of five-antibiotic mixture on Microcystis aeruginosa exposed to sublethal doses of ultraviolet radiation.@Int. J. Environ. Sci. Technol.,@16,@8229–8238.@2019@@Cyanobacterial removal; Antibiotics contamination; Photosynthesis; Microcystins ; Antioxidant responses@NIES-843@NIES843
3306@Zhu, J., Hong, D. D., Wakisaka, M.@Phytic acid extracted from rice bran as a growth promoter for Euglena gracilis.@Open Chem.,@17,@57-63.@2019@@phytic acid; Euglena gracilis; photosynthetic pigments; cell morphology@NIES-48@NIES48
3307@Shimasaki, Y., Tsuyama, M., Tasmin, R., Khanam, M. R. M., Qiu, X., Oshima, Y.@Comparative study of toxicological responses of chlorophyllrelated parameters in the marine diatom Skeletonema sp. exposed to tributyltin and Irgarol.@Jpn. J. Environ. Toxicol.,@18,@1-10.@2015@@tributyltin; Irgarol; diatom; chlorophyll; photosynthesis@NIES-324@NIES324
3308@Sugihara, S., Ozaki, T., Tojo, T., Endo, H., Saito, T., Takimura, Y.@Identification of novel 3-ketoacyl-acyl carrier protein synthase involved in producing medium chain fatty acids from microalgae.@Bioresour. Technol. Reports,@7,@100184 (article ID).@2019@@3-ketoacyl ACP synthase; Medium chain fatty acid; Microalgae; Nannochloropsis@NIES-2145@NIES2145
3309@Chin, Y.-Y., Chu, W.-L., Kok, Y.-Y., Phang, S.-M., Wong, C.-Y., Tan, B.-K., Mustafa, E. M.@Sensitivity of selected tropical microalgae isolated from a farmland and a eutrophic lake to atrazine and endosulfan.@J. Appl. Phycol.,@31,@2981–299.@2019@@Atrazine; Endosulfan; Microalgae; Oxidative stress; Chlorella; Scenedesmus@NIES-35@NIES35
3310@Jangir, M. M., Vani, B., Chowdhury, S.@Analysis of seven putative Na+/H+ antiporters of Arthrospira platensis NIES-39 using transcription profiling and In-silico studies: an indication towards alkaline pH acclimation.@Physiol. Mol. Biol. Plants@25,@1175–1183.@2019@@Arthrospira platensis NIES-39; Na+/H+ antiporters; pH; Real-time PCR; CPA family@NIES-39@NIES39
3311@Mukai, K., Teramoto, A., Qiu, X., Shimasaki, Y., Kato-Unoki, Y., Lee, J. M., Mizoguchi, N., Khanam, M. R. M., Satone, H., Tatsuke, T., Kusakabe, T., Oshima, Y.@Gene structure and cDNA sequence of 2-Cys peroxiredoxin in the harmful algal bloom species Chattonella marina and its gene transcription under different light intensities.@Eur. J. Phycol.,@53,@29-38.@2018@@Chattonella marina; 2-Cys peroxiredoxin; H2O2 scavenging activity; strong light; harmful algal bloom species; nuclear-encoded plastid RNA polymerase; plastid-encoded plastid RNA polymerase@NIES-1@NIES1
3312@Nozaki, H., Takusagawa, M., Matsuzaki, R., Misumi, O., Mahakham, W., Kawachi, M.@Morphology, reproduction and taxonomy of Volvox dissipatrix (Chlorophyceae) from Thailand, with a description of Volvox zeikusii sp. nov.@Phycologia,@58,@192-199.@2019@@Heterothallic species; Homothallic species; Molecular phylogeny; Sexuality; Somatic cell; Transmission electron microscopy@NIES-4270@NIES4270@NIES-731@NIES731@NIES-4128@NIES4128
3313@Zhang, Z., Qu, C., Yao, R., Nie, Y., Xu, C., Miao, J., Zhong, B.@The parallel molecular adaptations to the Antarctic cold environment in two psychrophilic green algae.@Genome Biol. Evol.,@11,@1897-1908.@2019@@Antarctic; psychrophilic green algae; positive selection, molecular convergence; adaptation@NIES-691@NIES691
3314@Greenwold, M. J., Cunningham, B. R., Lachenmyer, E. M., Pullman, J. M., Richardson, T. L., Dudycha, J. L.@Diversification of light capture ability was accompanied by the evolution of phycobiliproteins in cryptophyte algae.@Proc. R. Soc. B-Biol. Sci.,@286,@20190655 (article ID).@2019@@photosynthesis; photosynthetically usable radiation; phycobilin; resource acquisition@NIES-698@NIES698@NIES-702@NIES702
3315@Urrejola, C., Alcorta, J., Salas, L., Vásquez, M., Polz, M. F., Vicuña, R., Díez, B.@Genomic features for desiccation yolerance and sugar biosynthesis in the extremophile Gloeocapsopsis sp. UTEX B3054.@Front. Microbiol.,@10,@950 (article ID).@2019@@Atacama Desert; compatible solutes; cyanobacteria; desiccation tolerance; DNA extraction; exopolysaccharide; glycosyltransferase; trehalose@NIES-1031@NIES1031
3316@Kim, J. I., Shin, W., Treimer, R. E.@Multigene analyses of photosynthetic euglenoids and new family, Phacaceae (Euglenales).@J. Phycol.,@46,@1278-1287.@2010@@discoid chloroplast; Euglenaceae; Euglenales; multigene analysis; Phacaceae; phylogeny; synapomorphy@NIES-381@NIES381
3317@Wagstaff, B. A., Rejzek, M., Kuhaudomlarp, S., Hill, L., Mascia, I., Nepogodiev, S. A., Dorfmueller, H. C., Field, R. A.@Discovery of an RmlC/D fusion protein in the microalga Prymnesium parvum and its implications for NDP-β-L-rhamnose biosynthesis in microalgae.@J. Biol. Chem.,@294,@9172-9185.@2019@@@NIES-381@NIES381
3318@Park, B. S., Kim, S., Kim. J.-H., Kim, J. H., Han, M.-S.@Dynamics of Amoebophrya parasites during recurrent blooms of the ichthyotoxic dinoflagellate Cochlodinium polykrikoides in Korean coastal waters.@Harmful Algae,@84,@119-126.@2019@@Amoebophrya; Bloom dynamics; Cochlodinium polykrikoides ; Parasitism; Uantitative real-time PCR@NIES-298@NIES298
3319@Lee, C., Jeon, M., Kim, J. Y., Lee, S. H., Kim, D. G., Roh, S. W., Choi, Y.-E.@Effects of an auxin-producing symbiotic bacterium on cell growth of themicroalgaHaematococcus pluvialis: Elevation of cell density andprolongation of exponential stage.@Algal Res.,@41,@101547.@2019@@Unicellular microalgae; Haematococcus spp.; Symbiotic bacteria; Achromobactersp.; Growth promotion; Auxin@NIES-144@NIES144
3320@Tsuzuki, M., Okada, K., Isoda, H., Hirano, M., Odaka, T., Saijo, H., Aruga, R., Miyauchi, H., Fujiwara, S.@Physiological properties of photoautotrophic microalgae and cyanobacteria relevant to industrial biomass production.@Mar. Biotechnol.,@21,@406-415.@2019@@Algae; Biomass; Chlorella; Culture system; Cyanobacteria; Photosynthesis@NIES-2160@NIES2160
3321@Inaba, N., Trainer, V., Nagai, S., Kojima, S., Sakami, T., Takagi, S., Imai, I.@Dynamics of seagrass bed microbial communities in artificial Chattonella blooms: A laboratory microcosm study.@Harmful Algae,@84,@139-150.@2019@@Microcosm; Study; Chattonella; Harmful algal blooms (HAB); Seagrass; HAB ; prevention@NIES-1@NIES1
3322@Fujiwara, T., Hirooka, S., Mukai, M., Ohbayashi, R., Kanesaki, Y., Watanabe, S., Miyagishima, S.@Integration of a Galdieria plasma membrane sugar transporter enables heterotrophic growth of the obligate photoautotrophic red alga Cynanidioschyzon merolae.@Plant Direct,@3,@e00134 (article ID).@2019@@Cyanidioschyzon merolae; Galdieria sulphuraria; heterotroph; mixotroph; plasma membrane sugar transporter@NIES-3377@NIES3377
3323@Brito, M. L. M., Han, W. Q., Li, G. Q.@Effects of diurnal fluctuation of temperature on growth, photosynthetic activity response of two morphotypes cells of Emiliania huxleyi.@Indian J. Mar. Sci.,@48,@349-356.@2019@@Calcified cells (C-Cells); Coccoliths; Emiliania huxleyi (E. huxleyi); Morphotypes cells; Naked cells (N-Cells); PAM fluorometry@NIES-1318@NIES1318
3324@Deodatoa, C. R., Barlow, S. B., Hovde, B. T., Cattolico, R. A.@Naked Chrysochromulina (Haptophyta) isolates from lake and river ecosystems: An electron microscopic comparison including new observations on the type species of this taxon.@Algal Res.,@40,@101492.@2019@@Chrysochromulina; Freshwater; Scale-less; Electron microscopy; Morphology; Cryptic species complexes@NIES-562@NIES562
3325@Zhu, S., Feng, S., Xu, Z., Qin, L., Shang, C., Feng, P., Wang, Z., Yuan, Z.@Cultivation of Chlorella vulgaris on unsterilized dairy-derived liquid digestate for simultaneous biofuels feedstock production and pollutant removal.@Bioresour. Technol.,@285,@121353 (article ID).@2019@@Liquid digestate; Biomass production; Lipid productivity; Wastewater treatment; Microbial community analysis@NIES-227@NIES227
3326@Turmel, M., Lopes Dos Santos, A., Otis, C., Sergerie, R., Lemieux, C.@Tracing the evolution of the plastome and mitogenome in the Chloropicophyceae uncovered convergent tRNA gene losses and a variant plastid genetic code.@Genome Biol. Evol.,@11,@1275–1292.@2019@@prasinophyte green algae; Picocystis salinarum; chloroplast genome; mitochondrial genome; phylogenomic analyses; AUA codon reassignment@NIES-2755@NIES2755@NIES-3669@NIES3669@NIES-3835@NIES3835@NIES-3849@NIES3849@NIES-2758@NIES2758
3327@Takano, T., Higuchi, S., Ikegaya ,H., Matsuzaki, R., Kawachi, M., Takahashi, F., Nozaki, H.@Identification of 13 Spirogyra species (Zygnemataceae) by traits of sexual reproduction induced under laboratory culture conditions.@Sci Rep,@9,@7458 (article ID).@2019@@@NIES-4312@NIES4312@NIES-4316@NIES4316@NIES-4303@NIES4303@NIES-4304@NIES4304@NIES-4305@NIES4305@NIES-4306@NIES4306@NIES-4307@NIES4307@NIES-4308@NIES4308@NIES-4309@NIES4309@NIES-4310@NIES4310@NIES-4311@NIES4311@NIES-4313@NIES4313@NIES-4314@NIES4314@NIES-4315@NIES4315@NIES-4302@NIES4302
3328@Steinbrenner, J. & Sandmann, G.@Transformation of the green alga Haematococcus pluvialis with a phytoene desaturase for accelerated astaxanthin biosynthesis.@Appl. Environ. Microbiol.,@72,@7477-7484.@2006@@@NIES-144@NIES144
3329@Jiang, J., Lu, Y.@Metabolite profiling of Breviolum minutum in response to acidification.@Aquat. Toxicol.,@213,@105215 (article ID).@2019@@Breviolum minutum; Acidification; Metabolomics; LC-MS; Photophysiology; Acclimation@NIES-3808@NIES3808
3330@Onyshchenko, A., Ruck, E. C., Nakov, T., Alverson, A. J.@A single loss of photosynthesis in the diatom order Bacillariales (Bacillariophyta).@Am. J. Bot.,@106,@560-572.@2019@@Nitzschia; apochloritic; chloroplast; photosynthesis; phylogeny; plastid@NIES-3581@NIES3581
3331@Yamagishi, T., Ota, S., Yamaguchi, H., Koshikawa, H., Tatarazako, N., Yamamoto, H., Kawachi, M.@Ecotoxicological bioassay using marine algae for deep-sea mining.@In Environmental Issues of Deep-Sea Mining: Impacts, Consequences and Policy Perspectives, Ed. by Sharma, R., Springer, Cham,@@pp. 255-271.@2019@@@NIES-981@NIES981@NIES-323@NIES323@NIES-1000@NIES1000@NIES-2590@NIES2590@NIES-969@NIES969@NIES-1411@NIES1411@NIES-613@NIES613@NIES-971@NIES971@NIES-1001@NIES1001@NIES-1310@NIES1310@NIES-2304@NIES2304@NIES-2587@NIES2587@NIES-2670@NIES2670@NIES-2672@NIES2672
3332@Imamura, S., Nomura, Y., Takemura, T., Pancha, I., Taki, K., Toguchi, K., Tozawa, Y., Tanaka K.@The checkpoint kinase TOR (target of rapamycin) regulates expression of a nuclear‐encoded chloroplast RelA‐SpoT homolog (RSH) and modulates chloroplast ribosomal RNA synthesis in a unicellular red alga. @Plant J.,@94,@327-339.@2018@@RelA-SpoT homolog; ppGpp; red alga; ribosomal RNA; target of rapamycin@NIES-3377@NIES3377
3333@Nobusawa, T., Yamakawa-Ayukawa, K., Saito, F., Nomura, S., Takami, A., Ohta, H.@A homolog of Arabidopsis SDP1 lipase in Nannochloropsis is involved in degradation of de novo-synthesized triacylglycerols in the endoplasmic reticulum.@Biochim. Biophys. Acta Mol. Cell Biol. Lipids,@1864,@1185-1193.@2019@@Nannochloropsis; Lipase; Triacylglycerol; SDP1@NIES-2145@NIES2145
3334@Jin, P., Liu, N., Gao, K.@Physiological responses of a coccolithophore to multiple environmental drivers.@Mar. Pollut. Bull.,@146,@225-235.@2019@@Coccolithophores; Global change; Ocean acidification; Multiple drivers; Synergistical@NIES-1318@NIES1318
3335@Nomura, T., Inoue, K., Uehara-Yamaguchi, Y., Yamada, K., Iwata, O., Suzuki, K., Mochida, K.@Highly efficient transgene‐free targeted mutagenesis and single‐stranded oligodeoxynucleotide‐mediated precise knock‐in in the industrial microalga Euglena gracilis using Cas9 ribonucleoproteins.@Plant Biotechnol. J.,@17,@2032-2034.@2019@@Euglena gracilis; Microalgae; genome editing; ribonucleoproteins; CRISPR/Cas9; transgene free; knock-in; single-stranded oligodeoxynucleotides@NIES-48@NIES48
3336@Yamashita, S. & Nozaki, H.@Embryogenesis of flattened colonies implies the innovation required for the evolution of spheroidal colonies in volvocine green algae.@BMC Evol. Biol.,@19,@120 (article ID).@2019@@Multicellularity; Body plan; Embryogenesis; Volvocine green algae; Gonium; Tetrabaena@NIES-571@NIES571@NIES-4327@NIES4327
3337@Otaki, R., Oishi, Y., Abe, S., Fujiwara, S., Sato, N.@Regulatory carbon metabolism underlying seawater-based promotion of triacylglycerol accumulation in Chlorella kessleri.@Bioresour. Technol.,@289,@121686 (article ID).@2019@@Carbon metabolism; Chlorella kessleri; Gene expression; Seawater-based biofuel; Triacylglycero@NIES-2152@NIES2152
3338@Lee, S., Thio, S. K., Park, S.-Y., Bae, S.@An automated 3D-printed smartphone platform integrated withoptoelectrowetting (OEW) microfluidic chip for on-site monitoring of viablealgae in water.@Harmful Algae,@88,@101638 (article ID).@2019@@Algae quantification; In-situ assessment; Viable algae; 3D-printed smartphone platform; Optoelectorwetting@NIES-843@NIES843@NIES-2463@NIES2463
3339@Sakamoto, M. & Kashiwada, S.@Toxicity of silver nanocolloids to Raphidocelis subcapitata.@Jpn. J. Environ. Toxicol.,@23,@63-66 (in Japanese with English summary).@2020@@@NIES-35@NIES35
3340@Yoshitomi, T., Shimada, N., Iijima, K., Hashizume, M., Yoshimoto, K.@Polyethyleneimine-induced astaxanthin accumulation in the green alga Haematococcus pluvialis by increased oxidative stress.@J. Biosci. Bioeng.,@128,@751-754.@2019@@Polyethyleneimine; Haematococcus pluvialis; Astaxanthin; Cellular uptake; Reactive oxygen species; Flocculant; Oxidative stress; Microalgae@NIES-144@NIES144
3341@Morsy, F. M., Elbadry, M., El-Sayed, W. S., Abd El-Hady, D.@Dark and photofermentation H₂ production from hydrolyzed biomass of the potent extracellular polysaccharides producing cyanobacterium Nostoc commune and intracellular polysaccharide (glycogen) enriched Anabaena variabil is NIES-2095.@Int. J. Hydrog. Energy,@44,@16199-16211.@2019@@Anabaena variabilis; Biohydrogen; Clostridium; Cyanobacterial polysaccharides; Nostoc commune; Rhodobacter capsulatus@NIES-2095@NIES2095
3342@Beneragama, C. K., Chamara, R. M. S. R., Kumara, G. D. K., Goto, K.@Intraspecific plasticity in circadian rhythms within Euglena gracilis@Int. J. Appl. Sci. Biotechnol.,@7,@207-216.@2019@@Euglena gracilis; Circadian rhythms; Intraspecific Plasticity@NIES-48@NIES48
3343@Wang, Z., Gui, H., Luo, Z., Zhen, Z., Yan, C., Xing, B.@Dissolved organic phosphorus enhances arsenate bioaccumulation and biotransformation in Microcystis aeruginosa.@Environ Pollut.,@252,@1755-1763.@2019@@Arsenate; Subcellular distribution; Functional gene; Organic phosphorus; Algae@NIES-843@NIES843
3344@Yamazaki, T., Konosu, E., Takeshita, T., Hireta, A., Ota, S., Kazama, Y., Abe, T., Kawano, S.@Independent regulation of the lipid and starch synthesis pathways by sulfate metabolites in the green microalga Parachlorella kessleri under sulfur starvation conditions.@Algal Res.,@36,@37-47.@2018@@Chlorella; Lipids; Starch; Sulfur assimilation; Sulfur starvation@NIES-2152@NIES2152
3345@Kimbara, R., Isaka, N., Matsuzaki, R., Kawai-Toyooka, H., Kawachi, M., Nozaki, H.@Morphological and molecular identification of the dioecious “African species Volvox rousseletii (Chlorophyceae) in the water column of a Japanese lake based on field-collected and cultured materials.@PLoS One,@14,@e0221632 (article ID).@2019@@@NIES-4338@NIES4338@NIES-4339@NIES4339@NIES-4340@NIES4340@NIES-4341@NIES4341@NIES-4342@NIES4342@NIES-4336@NIES4336@NIES-4337@NIES4337
3346@Yuasa, T., Kawachi, M., Horiguchi, T., Takahashi, O.@Chrysochromulina andersonii sp. nov. (Prymnesiophyceae), a new flagellate haptophyte symbiotic with radiolarians.@Phycologia,@58,@211-224.@2019@@@NIES-4257@NIES4257
3347@Yamada, Y., Tomaru, Y., Fukuda, H., Nagata, T.@Aggregate formation during the viral lysis of a marine diatom.@Front. Mar. Sci.,@15,@167 (article ID).@2018@@aggregate; diatom–virus interaction; particle size distribution; settling velocity; material cycle@NIES-3715@NIES3715
3348@Hano, T. & Tomaru, Y.@Metabolomics-based approach to explore growth phase-dependent markers in cultured diatom Chaetoceros tenuissimus.@J. Chromatogr. B,@1128,@121779 (article ID).@2019@@Diatom; Metabolomics; Gas chromatography mass spectrometry; Liquid chromatography tandem mass spectrometry; Growth phase@NIES-3715@NIES3715
3349@Ota, S., Yamaguchi, H., Vanel, F., Fuchida, S., Koshikawa, H., Yamagishi, T., Yamamoto, H., Kawachi, M.@Differential heavy metal sensitivity in seven algal species from the NIES culture collection based on delayed fluorescence assays.@Phycol. Res.,@68,@41-49.@2020@@bioassay; delayed fluorescence; metal toxicity; pelagic environment, phytoplankton; seafloor massive sulfide@NIES-981@NIES981@NIES-1310@NIES1310@NIES-2670@NIES2670@NIES-969@NIES969@NIES-971@NIES971@NIES-1001@NIES1001@NIES-2587@NIES2587
3350@Tanabe, Y., Yamaguchi, H., Sano, T., Kawachi, M.@A novel salt-tolerant genotype illuminates the sucrose gene evolution in freshwater bloom-forming cyanobacterium Microcystis aeruginosa.@FEMS Mircobiol. Lett.,@366,@fnz190 (article ID).@2019@@Microcystis; compatible solute; brackish water; sucrose@NIES-4325@NIES4325
3351@Tomaru, Y., Kimura, K., Yamaguchi, H.@Temperature alters algicidal activity of DNA and RNA viruses infecting Chaetoceros tenuissimus.@Aquat. Microb. Ecol.,@73,@171-183.@2014@@Diatom; CtenDNAV; CtenRNAV; Virus; Niche partitioning@NIES-3717@NIES3717@NIES-3716@NIES3716
3352@Toyoda, K., Nagasaki, K., Tomaru, Y.@Application of real-time PCR assay for detection and quantification of bloom-forming diatom Chaetoceros tenuissimus Meunier.@Plankton Benthos Res.,@5,@56-61.@2010@@Chaetoceros tenuissimus; detection; diatom; enumeration; TaqMan-based real-time PCR@NIES-3715@NIES3715
3353@Takahashi, K., Benico, G., Lum, W. M., Iwataki, M.@Gertia stigmatica gen. et sp. nov. (Kareniaceae, Dinophyceae), a new marine unarmored dinoflagellate possessing the peridinin-type chloroplast with an eyespot.@Protist,@170,@125680 (article ID).@2019@@Chloroplast; endosymbiosis; eyespot; Gertia stigmatica; Kareniaceae; peridinin@NIES-4330@NIES4330
3354@Keshari, N., Gugger, M., Zhu, T., Lu, X.@Compatible solutes profiling and carbohydrate feedstock from diversified cyanobacteria.@Algal Res.,@43,@101637 (article ID).@2019@@Cyanobacteria; Compatible solutes; Glucosylglycerol (GG); Sucrose; Trehalose; Glycogen@NIES-592@NIES592@NIES-1031@NIES1031@NIES-31@NIES31
3355@Iwai, S., Fujita, K., Takanishi, Y., Fukushi, K.@Photosynthetic endosymbionts benefit from host’s phagotrophy, including predation on potential competitors.@Curr. Biol.,@29,@3114-3119.@2019@@@NIES-227@NIES227
3356@Benico, G., Takahashi, K., Lum, W. M., Iwataki, M.@Morphological variation, ultrastructure, pigment composition and phylogeny of the star-shaped dinoflagellate Asterodinium gracile (Kareniaceae, Dinophyceae).@Phycologia,@58,@405-418.@2019@@19′-Hexanoyloxyfucoxanthin; Apical structure complex (ASC); Brachidinium; Chloroplast; Karenia; Karlodinium; Pyrenoid; Takayama@NIES-4329@NIES4329
3357@Suzuki, S., Yamaguchi, H., Kawachi, M.@The draft genome of a hydrogen-producing cyanobacterium, Arthrospira platensis NIES-46.@J. Genomics,@7,@56-59.@2019@@Arthrospira platensis NIES-46; filamentous cyanobacterium; genome; hydrogen production; phylogeny; Spirulina@NIES-46@NIES46
3358@Štenclová, L. & Fučíková, K.@Dispora speciosa, a new addition to the genus Parallela and the first coccoid member of the family Microsporaceae.@Phytotaxa,@419,@10.1016/j.scitotenv.2019.134596@2019@@18S rRNA; atpB; epitype; phylogeny; psaB; TEM; rbcL@NIES-394@NIES394
3359@Makino, T., Matsuzaki, R., Suzuki, S., Yamaguchi, H., Kawachi, M., Nozaki, H.@Taxonomic re-examination of two NIES strains of “Chlamydomonas” within the Reticulata group of the genus Chloromonas (Volvocales, Chlorophyceae).@Microb. Resour. Syst.,@35,@13-23.@2019@@Chlamydomonas gerloffii; Chlamydomonas subangulosa; Chloromonas difformis nom. nov.; Chloromonas typhlos; molecular phylogeny; morphology; taxonomy@NIES-2215@NIES2215@NIES-2243@NIES2243
3360@Nakamura, H.@Water chemical remediation for simultaneous removal of phosphate ion and blue-green algae from anthropogenically eutrophied pond.@In Water Chemistry,@@pp. 1-17.@2019@@resource removal; calcium chloride; phosphorus; water bloom; anthropogenic eutrophication; organic pollution@NIES-87@NIES87
3361@Yoshitomi, T., Kaminaga, S., Sato, N., Toyoshima, M., Moriyama, T., Yoshimoto, K.@Formation of spherical palmelloid colony with enhanced lipid accumulation by gel encapsulation of Chlamydomonas debaryana NIES-2212.@Plant Cell Physiol., @61,@158–168.@2020@@Chlamydomonas; Acyltransferase; Alginate gel; Gel encapsulation; Palmelloid colony; Triacylglycerol@NIES-2212@NIES2212
3362@Mizuguchi, H., Fujii, S., Fujii, S., Higa, R., Ishikawa, K., Hayakawa, K., Okamoto, T., Fuse, Y., Karatani, H., Yamada, E.@Application of SYBR green real-time PCR assay to monitoring of phytoplankton during cultivation and in Lake Biwa.@Limnological Study,@,@3-12.@2018@@SYBR Green; real-time PCR; phytoplankton; Lake Biwa; dissolved organic matter@NIES-109@NIES109@NIES-275@NIES275@NIES-665@NIES665@NIES-391@NIES391
3363@Kania, K., Zienkiewicz, M., Drożak, A.@Stable transformation of unicellular green alga Coccomyxa subellipsoidea C-169 via electroporation.@Protoplasma,@257,@607–611.@2020@@Coccomyxa subellipsoidea C-169; Hygromycin B resistance; Electrotransformation; Electroporation; Stable genome transformation@NIES-2166@NIES2166
3364@Shen, X-F., Gao, L-J., Zhou, S-B., Huang, J-L., Wu, C-Z., Qin, Q-W., Zeng, R. J.@High fatty acid productivity from Scenedesmus obliquus in heterotrophic cultivation with glucose and soybean processing wastewater via nitrogen and phosphorus regulation.@Sci. Total Environ.,@,@134596 (article ID).@2020@@Scenedesmus obliquus; heterotrophic cultivation; soybean processing wastewater; nitrogen deficiency; phosphorus; biodiesel productivity@NIES-2280@NIES2280
3365@Masumoto, H., Ohmura, Y., Degawa, Y.@Lichenomphalia meridionalis (Hygrophoraceae, lichenized Basidiomycota) new to Asia.@Opuscula Philolichenum,@18,@379-389.@2019@@Basidiolichen; Coccomyxa; distribution; Japan; molecular phylogeny; taxonomy@NIES-4343@NIES4343
3366@Lu, Y., Zhuo, C., Li, Y., Li, H., Yang, M., Xu, D., He, H.@Evaluation of filamentous heterocystous cyanobacteria for integrated pig-farm biogas slurry treatment and bioenergy production.@Bioresour. Technol.,@297,@122418 (article ID).@2020@@Pig farm; Biogas slurry; Filamentous cyanobacteria; Wastewater treatment; Bioenergy@NIES-3756@NIES3756
3367@Kashem, MA., Kimoto, K., Iribe, Y., Suzuki, M.@Development of microalgae biosensor chip by incorporating microarray oxygen sensor for pesticides sensing.@Biosensors,@9,@133 (article ID).@2019@@biosensor chip; fluorescence oxygen sensor; microalgae; pesticides@NIES-35@NIES35
3368@Wei, K., Jung, S., Amano, Y., Machida, M.@Control of the buoyancy of Microcystis aeruginosa via colony formation induced by regulating extracellular polysaccharides and cationic ions.@SN Applied Sciences,@1,@1573 (article ID).@2019@@Buoyancy; Colony formation; Extracellular polysaccharides; Cationic ions; Microcystis@NIES-843@NIES843
3369@Suzuki, S., Kataoka, T., Watanabe, T., Yamaguchi, H., Kuwata, A., Kawachi, M.@Depth-dependent transcriptomic response of diatoms during spring bloom in the western subarctic Pacifc Ocean.@Sci Rep,@9,@14559 (article ID).@2019@@@NIES-4227@NIES4227
3370@Edwin, N., Akhwale, J. K., Mwirichia, R.@Phylogenetic and morphological diversity of culturable cyanobacteria from Lake Magadi in Kenya.@Afr. J. Bio. Sc.,@1,@24-31.@2019@@Cyanobacteria; Soda lakes; Extremophiles; Lake Magadi@NIES-208@NIES208
3371@Ikehara, T., Kuniyoshi, K., Yamaguchi, H., Tanabe, Y., Sano, T., Yoshimoto, M., Oshiro, N., Nakashima, S., Yasumoto-Hirose, M.@First report of Microcystis strains producing MC-FR and -WR toxins in Japan.@Toxins,@11,@521 (article ID).@2019@@Cyanobacteria; Microcystis; microcystins; environmental water; liquid chromatographymass spectrometry; protein phosphatase 2A inhibition assay@NIES-4344@NIES4344@NIES-4345@NIES4345
3372@Suzuki, S., Yamaguchi, H., Kawachi, M.@Draft genome sequences of three filamentous cyanobacterial strains, Dolichospermum planctonicum NIES-80, Planktothrix agardhii NIES-905, and Sphaerospermopsis reniformis NIES-1949.@Microbiol. Resour. Ann..,@8,@e00605-19 (article ID).@2019@@@NIES-905@NIES905@NIES-1949@NIES1949@NIES-80@NIES80
3373@Wan, M., Zhang, Z., Wang, R., Bai, W., Huang, J., Wang, W., Shen, G., Yu, A., Li, Y.@High-yield cultivation of Botryococcus braunii for biomass and hydrocarbons.@Biomass Bioenerg.,@131,@105399 (article ID).@2019@@Botryococcus braunii; Hydrocarbon; Heterotrophy; Photoautotrophy@NIES-836@NIES836
3374@Kawasaki, S., Yoshida, R., Ohkoshi, K., Toyoshima, H.,@Coelastrella astaxanthina sp. nov. (Sphaeropleales, Chlorophyceae), a novel microalga isolated from an asphalt surface in midsummer in Japan.@Phycol. Res.,@68,@107-114.@2020@@astaxanthin; dry conditions; photo-oxidative stress; Scenedesmaceae; terrestrial microalgae@NIES-2151@NIES2151
3375@Liang, Z., Geng, Y., Ji, C., Du, H., Wong, C. E., Zhang, Q., Zhang, Y., Zhang, P., Riaz, A., Chachar, S., Ding, Y., Wen, J., Wu, Y., Wang, M., Zheng, H., Wu, Y., Demko, V., Shen, L., Han, X., Zhang, P., Gu, X., Yu, H.@Mesostigma viride genome and transcriptome provide insights into the origin and evolution of Streptophyta.@Adv. Sci.,@7,@1901850 (article ID).@2020@@Mesostigma viride; evolution; green algae; multicellularity; Streptophyta@NIES-296@NIES296
3376@Abram, M., Białek, R., Szewczyk, S., Karolczak, J., Gibasiewicz, K., Kargul, J.@Remodeling of excitation energy transfer in extremophilic red algal PSI-LHCI complex during light adaptation.@Biochim. Biophys. Acta-Bioenerg.,@1861,@148093 (article ID).@2020@@Photosystem I; Light harvesting complex I; Time-resolved fluorescence; Extremophilic red alga Cyanidioschyzon merolae; Light adaptation; Red chlorophylls@NIES-1332@NIES1332@NIES-4696@NIES4696
3377@Okamoto, Y., Haraguchi, Y., Sawamura, N., Asahi, T., Shimizu, T.@Mammalian cell cultivation using nutrients extracted from microalgae.@Biotechnol. Prog.,@36,@e2941 (article ID).@2020@@acidic hydrolysis; amino acids; glucose; mammalian cell culture; microalgae; nutrients@NIES-49@NIES49@NIES-2170@NIES2170@NIES-27@NIES27@NIES-39@NIES39
3378@Komatsu, K., Onouchi, H., Imai, A., Kawasaki, N., Hashim, E. F., Mohd Rajuddin, M. K.@Effects of dissolved organic matter in soil extracts on the growth of microalgae.@J. Jpn. Soc. Wat. Environ.,@42,@239-246 (in Japanese with English summary).@2019@@Soil extracts; Microalgae; Microplate technique; Excitation emission matrix; Molecular size distribution@NIES-39@NIES39@NIES-2145@NIES2145@NIES-2168@NIES2168@NIES-2170@NIES2170@NIES-2256@NIES2256@NIES-2257@NIES2257@NIES-2258@NIES2258
3379@Shiratori, T., Suzuki, S., Kakizawa, Y., Ishida, K-I.@Phagocytosis-like cell engulfment by a planctomycete bacterium.@Nat. Commun.,@10,@5529 (article ID).@2019@@@NIES-2670@NIES2670
3380@Ota, S., Oshima, K., Yamazaki, T., Takeshita, T., Bišová, K., Zachleder, V., Hattori, M., Kawano, S.@The Parachlorella genome and transcriptome endorse active RWP-RK, meiosis and flagellar genes in trebouxiophycean algae.@Cytologia, @84,@323-330.@2019@@Evolution; Flagellum; MID; Meiosis; Parachlorella; RWP-RK@NIES-2152@NIES2152
3381@Casamatta, D. A., Villanueva, C. D., Garvey, A. D., Stocks, H. S., Vaccarino, M., Dvořák, P., Hašler, P., Johansen, J. R.@Reptodigitus chapmanii (Nostocales, Hapalosiphonaceae) gen. nov.: a unique Nostocalean (Cyanobacteria) genus based on a polyphasic approach.@J. Phycol., @56,@425-436.@2020@@cyanobacteria; Phylogeny; 16S rDNA; systematics@NIES-592@NIES592@NIES-3754@NIES3754@NIES-4106@NIES4106
3382@Liu, Z., Hou, Y., He, C., Wang, X., Chen, S., Huang, Z., Chen, F.@Enhancement of linoleic acid content stimulates astaxanthin esterification in Coelastrum sp.@Bioresour. Technol.,@300,@122649 (article ID).@2020@@Linoleic acid; astaxanthin esterification; Coelastrum sp.; Free astaxanthin; Fatty acid profile@NIES-144@NIES144
3383@Maltsev, Y., Maltseva, I., Maltseva, S., Kociolek, J. P., Kulikovskiy, M.@Fatty acid content and profile of the novel strain of Coccomyxa elongata (Trebouxiophyceae, Chlorophyta) cultivated at reduced nitrogen and phosphorusconcentrations.@J. Phycol.,@55,@1154-1165.@2019@@Coccomyxa; fatty acid profile lipid; nitrogen and phosphorus deprivation; Trebouxiophyceae@NIES-2252@NIES2252@NIES-2166@NIES2166@NIES-2353@NIES2353
3384@Yamaguchi, H., Suzuki, S., Kawachi, M.@Draft genome sequence of Microcystis aeruginosa NIES-87, a bloom-forming cyanobacterium from Lake Kasumigaura, Japan.@GenomeA,@6,@e01596-17 (article ID).@2018@@@NIES-87@NIES87
3385@Irshad, M., Myint, A. A., Hong, M. E., Kim, J., Sim, S. J.@One-pot, simultaneous cell wall disruption and complete extraction of astaxanthin from Haematococcus pluvialis at room temperature.@ACS Sustain. Chem. Eng.,@7,@13898-13910.@2019@@Haematococcus pluvialis; One-pot method; Cell wall disruption; Extraction; Astaxanthin; Antioxidant activity; GRAS solvent@NIES-144@NIES144
3386@Yalikun, Y., Ota, N., Guo, B., Tang, T., Zhou, Y., Lei, C., Kobayashi, H., Hosokawa, Y., Li, M., Enrique Muñoz, H., Di Carlo, D., Goda, K., Tanaka Y.@Effects of flow-induced microfluidic chip wall deformation on imaging flow cytometry.@Cytom. Part A,@97,@909-920.@2020@@glass microchannel; high-speed imaging flow cytometry; microchannel deformation effects; sample focusing@NIES-48@NIES48
3387@Koga, T., Kashiwabara, M., Hirakawa, S., Shimizu, N., Ishibashi, Y.@Development of an algal growth inhibition test as small-scale method for testing whole effluent toxicity.@J. Environ. Chem.,@29,@67-77 (in Japanese with English summary).@2019@@whole effluent toxicity; algal growth inhibition; small-scale method@NIES-35@NIES35
3388@Sako, Y.@Ecophysiological studies of marine microorganisms by genome information.@Nippon Suisan Gakkaishi,@85,@281-290 (in Japanese).@2019@@@NIES-12@NIES12@NIES-293@NIES293@NIES-1@NIES1@NIES-559@NIES559@NIES-603@NIES603@NIES-670@NIES670@NIES-7@NIES7
3389@Hoshina, R., Hayakawa, M. M., Kobayashi, M., Higuchi, R., Suzaki, T.@Pediludiella daitoensis gen. et sp. nov. (Scenedesmaceae, Chlorophyceae), a large coccoid green alga isolated from a Loxodes ciliate.@Sci Rep,@10,@628 (article ID).@2020@@@NIES-4031@NIES4031
3390@Yamada, E., Sasai, K., Higa, R., Mizuguchi, H., Fuse Y.@Characterization and dynamic analysis of dissolved proteins in Lake Biwa using two-dimensional electrophoresis.@Anal. Sci.,@36,@753-759.@2020@@@NIES-109@NIES109@NIES-275@NIES275@NIES-665@NIES665@NIES-391@NIES391
3391@Natsuike, M., Endo, Y., Ito, H., Miyamoto, M., Yoshimura, C., Fujii, M.@Iron uptake kinetics by coastal micro- and macro-algae in relation to riverine and coastal organic matter.@Estuar. Coast. Shelf Sci.,@235,@106580 (article ID).@2020@@Iron; Organic matter; Emission excitation matrix (EEM); Coastal waters; Fulvic acid@NIES-323@NIES323
3392@Spoof, L., Jaakkola, S., Važić, T., Häggqvist, K., Kirkkala, T., Ventelä, A. M., Kirkkala, T., Svirčev, Z., Meriluoto, J.@Elimination of cyanobacteria and microcystins in irrigation water—effects of hydrogen peroxide treatment.@Environ. Sci. Pollut. Res.,@27,@8638–8652.@2020@@Cyanobacteria; Microcystins; Irrigation water; Hydrogen peroxide; Spinach@NIES-107@NIES107
3393@Kim, M., Shin, B., Lee, J., Park, H. Y., Park, W.@Culture-independent and culture-dependent analyses of the bacterial community in the phycosphere of cyanobloom-forming Microcystis aeruginosa.@Sci Rep,@9,@20416 (article ID).@2019@@@NIES-298@NIES298
3394@Tokodi, N., Drobac Backović, D., Lujić, J., Šćekić, I., Simić, S., Dordević, N., Dulić, T., Miljanović, N., Marinović, Z., Savela, H., Meriluoto, J., Svirčev, Z.@Protected freshwater ecosystem with incessant cyanobacterial blooming awaiting a resolution.@Water,@12,@129 (article ID).@2020@@cyanobacteria; blooms; microcystin; Lake Ludoš@NIES-107@NIES107
3395@Moore, R. B., Oborník, M., Janouskovec, J., Chrudimský, T., Vancová, M., Green, D. H., Wright, S. W., Davies, N. W., Bolch, C. J., Heimann, K., Slapeta, J., Hoegh-Guldberg, O., Logsdon, J. M., Carter, D. A.@A photosynthetic alveolate closely related to apicomplexan parasites.@Nature,@451,@959-963.@2008@@@NIES-4391@NIES4391
3396@Oborník, M., Vancová, M., Lai, D. H., Janouškovec, J., Keeling, P. J., Lukeš, J.@Morphology and ultrastructure of multiple life cycle stages of the photosynthetic relative of apicomplexa, Chromera velia.@Protist,@162,@115-130.@2011@@@NIES-4391@NIES4391
3397@Dorrell, R. G., Drew, J., Nisbet, R. E., Howe, C. J.@Evolution of chloroplast transcript processing in Plasmodium and its chromerid algal relatives.@PLoS Genet.,@10,@e1004008 (article ID).@2014@@@NIES-4391@NIES4391
3398@Petersen, J., Ludewig, A. K., Michael, V., Bunk, B., Jarek, M., Baurain, D., Brinkmann, H.@Chromera velia, endosymbioses and the rhodoplex hypothesis--plastid evolution in cryptophytes, alveolates, stramenopiles, and haptophytes (CASH lineages).@Genome Biol. Evol.,@6,@666-684.@2014@@next-generation sequencing; eukaryote-to-eukaryote endosymbioses; horizontal and endosymbiotic gene transfer; chromalveolate hypothesis; long-branch attraction artifacts@NIES-4391@NIES4391
3399@Ludewig-Klingner, A. K., Michael, V., Jarek, M., Brinkmann, H., Petersen, J.@Distribution and evolution of peroxisomes in alveolates (Apicomplexa, Dinoflagellates, Ciliates).@Genome Biol. Evol.,@10,@1-13.@2018@@Vitrella brassicaformis; Toxoplasma gondii; glyoxylate cycle; diagnostic peroxins; catalase; phylogeny@NIES-4391@NIES4391
3400@Santaeufemia, S., Abalde, J., Torres, E.@Eco-friendly rapid removal of triclosan from seawater using biomass of a microalgal species: Kinetic and equilibrium studies.@J. Hazard. Mater.,@369,@674-683.@2019@@Sorption; Phaeodactylum tricornutum; Removal; Kinetic@NIES-4392@NIES4392
3401@Bowler, C. et al.@The Phaeodactylum genome reveals the evolutionary history of diatom genomes.@Nature,@456,@39–244.@2008@@Stramenopile; Heterokont; Direct repeats; Translational frameshift; Gene fusion; Hairpin elements@NIES-4392@NIES4392
3402@Oudot-Le Secq, M. P., Green, B. R.@Complex repeat structures and novel features in the mitochondrial genomes of the diatoms Phaeodactylum tricornutum and Thalassiosira pseudonana.@Gene,@476,@20-26.@2011@@Stramenopile; Heterokont; Direct repeats; Translational frameshift; Gene fusion; Hairpin elements@NIES-4392@NIES4392
3403@Oudot-Le Secq, M. P., Grimwood, J., Shapiro, H., Armbrust, E. V., Bowler, C., Green, B.@Chloroplast genomes of the diatoms Phaeodactylum tricornutum and Thalassiosira pseudonana: comparison with other plastid genomes of the red lineage.@Mol. Genet. Genomics,@277,@427–439.@2007@@Chloroplast; Plastid; Genome; Secondary endosymbiosis; Diatom@NIES-4392@NIES4392
3404@Janouskovec, J., Horák, A., Oborník, M., Lukes, J., Keeling, P. J.@A common red algal origin of the apicomplexan, dinoflagellate, and heterokont plastids.@Proc. Natl. Acad. Sci. U. S. A.,@,@10949-10954.@2010@@Apicomplexa: Chromera velia: CCMP3155: plastid evolution: chloroplast genome@NIES-4391@NIES4391
3405@MacCready, J. S., Basalla, J. L., Vecchiarelli, A. G.@Origin and evolution of carboxysome positioning systems in cyanobacteria.@Mol. Biol. Evol.,@37,@1434–1451.@2020@@@NIES-26@NIES26@NIES-592@NIES592@NIES-3754@NIES3754@NIES-88@NIES88@NIES-843@NIES843@NIES-2549@NIES2549@NIES-44@NIES44@NIES-87@NIES87@NIES-4075@NIES4075@NIES-25@NIES25@NIES-2111@NIES2111@NIES-73@NIES73@NIES-2107@NIES2107@NIES-3275@NIES3275@NIES-4106@NIES4106@NIES-806@NIES806@NIES-4074@NIES4074@NIES-4101@NIES4101@NIES-3974@NIES3974@NIES-267@NIES267@NIES-2100@NIES2100@NIES-2098@NIES2098@NIES-22@NIES22@NIES-21@NIES21@NIES-30@NIES30@NIES-4073@NIES4073@NIES-970@NIES970@NIES-932@NIES932@NIES-39@NIES39@NIES-2108@NIES2108@NIES-4103@NIES4103@NIES-3756@NIES3756
3406@Praveenkumar, R., Lee, J., Vijaya, D., Lee, S. Y., Lee, K., Sim, S. J., Hong, M. E., Kim, Y.-E., Oh, Y.-K.@Morphological change and cell disruption of Haematococcus pluvialis cyst during high-pressure homogenization for astaxanthin recovery.@Appl. Sci.,@10,@513 (article ID).@2020@@Haematococcus pluvialis; high-pressure homogenization; astaxanthin; cyst; cell disruption@NIES-144@NIES144
3407@Zhu, J. & Wakisaka, M.@Finding of phytase: Understanding growth promotion mechanism of phytic acid to freshwater microalga Euglena gracilis.@Bioresour. Technol.,@296,@122343 (article ID).@2020@@Euglena gracilis; Phytic acid; Fourier transform infrared spectroscopy; Multivariate analysis; Phytas@NIES-48@NIES48
3408@Mikami, H., Kawaguchi, M., Huang, C.-J., Matsumura, H., Sugimura, T., Huang, K., Lei, C., Ueno, S., Miura, T., Ito, T., Nagasawa, K., Maeno, T., Watari, H., Yamagishi, M., Uemura, S., Ohnuki, S., Ohya, Y., Kurokawa, H., Matsusaka, S., Sun, C.-W., Ozeki, Y., Goda, K.@Virtual-freezing fluorescence imaging flow cytometry.@Nat. Commun.,@6,@1162 (article ID).@2020@@@NIES-48@NIES48
3409@Yamano, T. & Fukuzawa, H.@Transformation of the model microalga Chlamydomonas reinhardtii without cell-wall removal.@In Electroporation Protocols. Methods in Molecular Biology, Eds. by Li, S., Chang, L., Teissie, J., Humana, New York, NY,@2050,@pp. 155-161.@2020@@Chlamydomonas reinhardtii; Electroporation; Photosynthesis; Protist; Square electric pulse@NIES-2235@NIES2235
3410@Szewczyk, S., Abram, M., Białek, R., Haniewicz, P., Karolczak, J., Gapiński, J., Kargul, J., Gibasiewicz, K.@On the nature of uncoupled chlorophylls in the extremophilic photosystem I-light harvesting I supercomplex.@Biochim. Biophys. Acta-Bioenerg.,@1861,@148136 (article ID).@2020@@Biosolar photovoltaic cells; Photosystem I; Light harvesting complex I; Uncoupled chlorophylls; Time-resolved fluorescence; Fluorescence correlation spectroscopy@NIES-1332@NIES1332@NIES-4696@NIES4696
3411@Sun, L., Chin, W. C., Chiu, M. H., Xu, C., Lin, P., Schwehr, K. A., Quigg, A., Santschi, P. H.@Sunlight induced aggregation of dissolved organic matter: Role ofproteins in linking organic carbon and nitrogen cycling in seawater.@Sci. Total Environ.,@654,@872-877.@2019@@Protein; Photo-flocculation; ROS; DOM@NIES-4392@NIES4392
3412@Susanti, H., Yoshida, M., Nakayama, T., Nakada, T., Watanabe, M. M.@A taxonomic reassessment of Chlamydomonas meslinii (Volvocales, Chlorophyceae) with a description of Paludistella gen.nov.@Phytotaxa,@432,@65-80.@2020@@Taxonomy; reassesment; Chlamydomonas meslinii; Paludistella; Algae@NIES-4317@NIES4317@NIES-4318@NIES4318
3413@Zhu, J. & Wakisaka, M.@Effect of two lignocellulose related sugar alcohols on the growth andmetabolites biosynthesis of Euglena gracilis.@Bioresour. Technol.,@303,@122950 (article ID).@2020@@Euglena gracilis; Mannitol; Xylitol; Fourier transform infrared spectroscopy; Multivariate analy@NIES-48@NIES48
3414@Muhetaer, G., Asaeda, T., Jayasanka, S. M. D. H., Baniya, M. B., Abeynayaka, H. D. L., Rashid, M. H., Yan, H. Y.@Effects of light intensity and exposure period on the growth and stress responses of two cyanobacteria species: Pseudanabaena galeata and Microcystis aeruginosa.@Water,@12,@407 (article ID).@2020@@cyanobacterial growth; stress responses; Pseudanabaena galeata; Microcystis aeruginosa; oxidative stress; antioxidative enzymes@NIES-111@NIES111@NIES-512@NIES512
3415@Hayakawa, T., Akita, Y., Arai, F.@Parallel trapping of single motile cells based on vibration‑induced flow.@Microfluid. Nanofluid.,@22,@42 (article ID).@2018@@Acoustofluidics; Cell manipulation; On-chip cell Manipulation; Vibration-induced flow; Motile cells@NIES-48@NIES48
3416@Hang, L. T., Mori, K., Tanaka, Y., Morikawa, M., Toyama, T.@Enhanced lipid productivity of Chlamydomonas reinhardtii with combination of NaCl and CaCl₂ stresses.@Bioprocess. Biosyst. Eng.,@43,@971–980.@2020@@Chlamydomonas reinhardtii; NaCl; CaCl₂; Lipid accumulation; Biofuel production@NIES-2235@NIES2235
3417@Nomura, M., Kamikawa, R., Ishida, K-I.@Fine structureo observation of feeding behavior, Nephroselmis spp.-derived chloroplast enlargement, and mitotic processes in the Katablepharid Hatena arenicola.@Protist,@171,@125714 (article ID).@2020@@Hatena arenicola; Nephroselmis; kleptochloroplastidy; feeding behavior; mitosis; ultrastructure@NIES-1417@NIES1417
3418@Akizuki, S., Kishi, M., Cuevas-Rodríguez, G., Toda, T.@Effects of different light conditions on ammonium removal in a consortium of microalgae and partial nitrifying granules.@Water Res., @171,@115445 (article ID).@2020@@Energy-saving process; Photo-oxygenation; Short-cut nitrogen removal; Ammonium removal pathway; Empirical model@NIES-2173@NIES2173
3419@Ishii, Y., Maruyama, S., Fujimura-Kamada, K., Kutsuna, N., Takahashi, S., Kawata, M., Minagawa, J.@Isolation of uracil auxotroph mutants of coral symbiont alga for symbiosis studies.@Sci Rep,@8,@3237 (article ID).@2018@@@NIES-4271@NIES4271
3420@Sakomoto, T., Takabe,Y., Uemura, T., Masuda, T., Hoshikawa, Y.@Feed utilisation of Chlorella vulgaris cultivated with aquaculture effluent.@J. Water Environ. Technol.,@18,@17-26.@2020@@Chlorella vulgaris; aquaculture effluent; nutrient consumption; feed utilisation; amino acids@NIES-2170@NIES2170
3421@Butler, T. & Golan, Y.@Astaxanthin production from microalgae.@In Microalgae biotechnology for food, health and high value products, Eds. by Alam, Md. A., Xu, J-L., Wang, Z., Springer, Singapore,@@pp. 175-242.@2020@@Astaxanthin; Contamination; Biomass; Bioreactors; Extraction; H. pluvialis@NIES-144@NIES144
3422@Kim, T. Y., Hong, J. E., Park, H. M., Lee, U. J., Lee, S-Y.@Decontamination of low-level contaminated water from radioactive cesium and cobalt using microalgae.@J. Radioanal. Nucl. Chem.,@323,@903-908.@2020@@Radionuclide; Microalgae; Cobalt; Cesium; Decontamination; Biosorption@NIES-2860@NIES2860
3423@Sato, N., Yoshitomi, T., Mori-Moriyama, N.@Characterization and biosynthesis of lipids in Paulinella micropora MYN1. Evidence for efficient integration of chromatophores into cellular lipid metabolism.@Plant Cell Physiol.,@61,@869–881.@2020@@Paulinella micropora; Betaine lipid; chromatophore; endosymbiosis; lipid metabolism; metabolic flow@NIES-4060@NIES4060
3424@Turmel, M., Otis, C., Lemieux, C.@Complete mitogenome of the chlorophyte green alga Marsupiomonas sp. NIES 1824 (Pedinophyceae).@Mitochondrial DNA Part B-Resour.@5,@548-550.@2020@@Chlorophyta; variant genetic code; fragmented rnl gene; Pedinophyceae; phylogenomics@NIES-1824@NIES1824
3425@Kishi, M., Yamada, Y., Katayama, T., Matsuyama, T., Toda, T.@Carbon mass balance in Arthrospira platensis culture with medium recycle and high CO₂ supply.@Appl. Sci.,@10,@228 (article ID).@2020@@Arthrospira; carbon dioxide; CO₂ capture and utilization; mass balance; medium recycle; pH@NIES-39@NIES39
3426@Erratt, K. J., Creed, I. F., Trick, C. G.@Differential drawdown of ammonium, nitrate, and urea by freshwater chlorophytes and Cyanobacteria.@J. Phycol.,@56,@458-468.@2020@@@NIES-88@NIES88@NIES-843@NIES843@NIES-102@NIES102@NIES-90@NIES90
3427@Yamaguchi, H., Suzuki, S., Osana, Y., Kawachi, M.@Genomic characteristics of the toxic bloom-forming cyanobacterium Microcystis aeruginosa NIES-102.@J. Genomics,@8,@1-6.@2020@@algal bloom; cyanobacteria; genome; microcystin; Microcystis aeruginosa; Lake Kasumigaura@NIES-102@NIES102
3428@Shimizu, K., Utsumi, M., Okano, K., Itayama, T., Iwami, N., Maseda, H., Kinohira, H., Li, J., Inamori, Y., Zhang, Z., Sugiura, N.@Removal of Microcystis aeruginosa cells and microcystin-LR using ceramic carrier in a continuous flow bioreactor.@Jpn. J. Water Treat. Biol., @52,@35-43.@2016@@protozoa; water treatment; ceramic carrier; microcystin-producing; cyanobacteria@NIES-102@NIES102
3429@Umetsu, S., Kanda, M., Imai, I., Sakai, R., Fujita, M. J.@Questiomycins, algicidal compounds produced by the marine bacterium Alteromonas sp. D and their production cue.@Molecules,@24,@4522 (article ID).@2019@@Alteromonas; Chattonella antiqua; algicidal bacteria; harmful algal bloom; phenoxazinone antibiotics; questiomycins; red tide@NIES-1@NIES1
3430@Hirose, Y., Misawa, N., Yonekawa, C., Nagao, N., Watanabe, M., Ikeuchi, M., Eki, T.@Characterization of the genuine type 2 chromatic acclimation in the two Geminocystis cyanobacteria.@DNA Res.,@24,@387-396.@2017@@Cyanobacteria; chromatic acclimation; phycobilisome; cyanobacteriochrome@NIES-3708@NIES3708@NIES-3709@NIES3709
3431@Liu, J., Yang, C., Chi, Y., Wu, D., Dai, X., Zhang, X., Igarashi, Y., Luo, F.@Algicidal characterization and mechanism of Bacillus licheniformis Sp34 against Microcystis aeruginosa in Dianchi Lake.@J. Basic Microbiol.,@59,@1112-1124.@2019@@Bacillus licheniformis; Microcystis aeruginosa; algicidal bacterium; biocontrol agent; cyanobacterial blooms@NIES-843@NIES843
3432@Popin, R. V., Delbaje, E., Abreu, V.A.C., Rigonato, J., Dörr, F.A., Pinto, E., Sivonen, K., Fiore, M.F.@Genomic and metabolomic analyses of natural products in Nodularia spumigena isolated from a shrimp culture pond.@Toxins,@12,@141 (article ID).@2020@@cyanobacteria; gene cluster; mass spectrometry; cyanotoxins; terpenes; water quality@NIES-3585@NIES3585
3433@Gharaie Fathabad, S., Arumanayagam, A. S., Tabatabai, B., Chen, H., Lu, J., Sitther, V.@Augmenting Fremyella diplosiphon cellular lipid content and unsaturated fatty acid methyl esters via sterol desaturase gene overexpression.@Appl. Biochem. Biotechnol.,@189,@1127-1140.@2019@@Alkane; Biofuel; Cyanobacteria; Sterol desaturase; Transcript abundance@NIES-3585@NIES3585@NIES-2107@NIES2107@NIES-2100@NIES2100
3434@Jiang, Y., Liu, Y., Zhang, J.@Antibiotic contaminants reduced the treatment efficiency of UV-C on Microcystis aeruginosa through hormesis.@Environ. Pollut.,@261,@114193 (article ID).@2020@@Combined pollution; Ultraviolet irradiation; Cyanobacterial control; Microcystins; Proteomic resp@NIES-843@NIES843
3435@Thakong, W., Shimizu, K., Kodato, M., Iwami, N., Whangchai, N., Itayama,T.@Sequencing of 18S rRNA gene of Bdelloid rotifers and design of the primers for real-time PCR.@Maejo Int. J. Energ. Environ. Commun.,@1-2,@55-63.@2020@@Rotifer; 18S rRNA gene; Specific primer; In-fusion cloning; Real-time PCR@NIES-843@NIES843
3436@Liu, X., Fujiwara, M., Kodera, T., Watanabe, K., Akizuki, S., Kishi, M., Koyama, M., Toda, T., Ban, S.@Conditions for continuous cultivation of Chlorella sorokiniana and nutrient removal from anaerobic digestion effluent of aquatic macrophytes.@Int. Biodeterior. Biodegrad.,@149,@104923 (article ID).@2020@@Flow-through cultivation; pH-controlled process; Biomass recovery; Green algae; Energy recycling; Wastewater treatment@NIES-2168@NIES2168
3437@Harmon, J., Mikami, H., Kanno, H., Ito, T., Goda, K.@Accurate classification of microalgae by intelligent frequency-division-multiplexed fluorescence imaging flow cytometry.@OSA Continuum,@3,@430-440.@2020@@@NIES-4141@NIES4141@NIES-3640@NIES3640@NIES-2293@NIES2293
3438@Kato, T., Nakano, K., Sueyoshi, M., Tasaki, M., Kuroiwa, Y.@Large-scale outdoor test of Chlorella culturing in raceway system in the Middle East.@Shimizu Kensetsu Kenkyuhokoku,@97,@133-138 (in Japanese with English summary).@2020@@@NIES-2169@NIES2169
3439@Azizi, M., Moteshafi, H., Hashemi, M.@Distinctive nutrient designs using statistical approach coupled with light feeding strategy to improve the Haematococcus pluvialis growth performance and astaxanthin accumulation.@Bioresour. Technol.,@300,@122594 (article ID).@2020@@H. pluvialis; Astaxanthin; Nutrients designing; Optimization; Light-feeding strategy@NIES-144@NIES144
3440@Dziga, D., Tokodi, N., Backović, D. D., Kokociński, M., Antosiak, A., Puchalski, J., Strzałka, W., Madej, M., Meriluoto, J., Svirčev, Z.@The effect of a combined hydrogen peroxide-MlrA treatment on the phytoplankton community and microcystin concentrations in a mesocosm experiment in Lake Ludoš.@Toxins,@11,@725 (article ID).@2019@@microcystin; biodegradation; hydrogen peroxide; treatment; cyanobacteria; bloom@NIES-107@NIES107
3441@Lu, Z., Dai, J., Zheng, L., Teng, Z., Zhang, Q., Qiu, D., Song, L.@Disodium 2-oxoglutarate promotes carbon flux into astaxanthin and fatty acid biosynthesis pathways in Haematococcus.@Bioresour. Technol.,@299,@122612 (article ID).@2020@@Haematococcus pluvialis; Disodium 2-oxoglutarate; Astaxanthin production; Fatty acids biosynthesis; Carbon allocation@NIES-144@NIES144
3442@Miura, T., Mikami, H., Isozaki, A., Ito, T., Ozeki, Y., Goda, K.@On-chip light-sheet fluorescence imaging flow cytometry at a high flow speed of 1 m/s.@Biomed. Opt. Express,@9,@3424-3433.@2018@@@NIES-48@NIES48
3443@Li, M., van Zee, M., Goda, K., Di Carlo, D.@Size-based sorting of hydrogel droplets using inertial microfluidics.@Lab Chip,@18,@2575-2582.@2018@@@NIES-48@NIES48
3444@Shibakami, M. & Sohma, M.@Thermal, crystalline, and pressure-sensitive adhesive properties of paramylon monoesters derived from an euglenoid polysaccharide.@Carbohydr. Polym.,@200,@239-247.@2018@@@NIES-48@NIES48
3445@Nagai, T.@Sensitivity differences among seven algal species to 12 herbicides with various modes of action.@J. Pestic. Sci.,@44,@225-232.@2020@@algae; difference in species sensitivity; herbicide@NIES-3277@NIES3277
3446@Suzuki, T., Nakasato, K., Shapiro, S., Pomati, F., Neilan, B. A.@Effects of synthetic local anaesthetics on the growth of the cyanobacterium Synechococcus leopoliensis.@J. Appl. Phycol.,@16,@145-152.@2004@@anaesthetics; auxins; cell growth; cyanobacteria; cytokinins; phytohormones; principal component; analysis; Synechococcus leopoliensis@NIES-3277@NIES3277
3447@Feng, S., Liu, F., Zhu, S., Feng, P., Wang, Z., Yuan, Z., Shang, C., Chen, H.@Performance of a microalgal-bacterial consortium system for the treatmentof dairy-derived liquid digestate and biomass production.@Bioresour. Technol.,@306,@123101 (article ID).@2020@@Liquid digestate; C. vulgaris; Pollutant removal; Biomass production; Bacterial community analysis@NIES-227@NIES227
3448@Hashizume, M., Yoshida, M., Demura, M., Watanabe, M. M.@Culture study on utilization of phosphite by green microalgae.@J. Appl. Phycol.,@32,@889–899.@2020@@Phosphite utilization; Chlorella vulgaris; Coccomyxa subellipsoidea@NIES-2170@NIES2170@NIES-2166@NIES2166@NIES-2280@NIES2280
3449@Moog, D., Nozawa, A., Tozawa, Y., Kamikawa, R.@Substrate specifcity of plastid phosphate transporters in a non-photosynthetic diatom and its implication in evolution of red algaderived complex plastids.@Sci Rep,@10,@1167 (article ID).@2020@@@NIES-3581@NIES3581
3450@Alcorta, J., Vergara-Barros, P., Antonaru, L. A., Alcamán-Arias, M. E., Nürnberg, D. J., Díez, B.@Fischerella thermalis: a model organism to study thermophilic diazotrophy, photosynthesis and multicellularity in cyanobacteria.@Extremophiles,@23,@635–647.@2019@@Fischerella: Mastigocladus: Distribution: Thermophile: Nitrogen fxation: Photosynthesis: Multicellularity: Hot springs@NIES-4106@NIES4106@NIES-592@NIES592@NIES-3754@NIES3754
3451@Hiki, K., Tsuchikawa, M., Nakajima, F., Tobino, T.@Identification of antioxidant genes in the ostracod Heterocypris incongruens through de novo transcriptome sequencing.@J. JSCE,@7,@133-142.@2019@@Heterocypris incongruens, ostracod, antioxidant genes, de novo transcriptome, toxicity, road dust@NIES-94@NIES94
3452@Zhu, J. & Wakisaka, M.@Effect of air nanobubble water on the growth and metabolism of Haematococcus lacustris and Botryococcus braunii.@J. Nutr. Sci. Vitaminol.,@65,@S212-S216.@2019@@Botryococcus braunii; Haematococcus lacustris; astaxanthin; lipid; nanobubble water@NIES-144@NIES144@NIES-2199@NIES2199
3453@Kamei-Ishikawa, N., Maeda, T., Soma, M., Yoshida, N., Sameshima, Y., Sasamoto, M., Higashiyama, Y., Touno, E., Ito, A.@Tylosin degradation during manure composting and the effect of the degradation byproducts on the growth of green algae.@Sci. Total Environ.,@718,@137295 (article ID).@2020@@Sheep feces; Half-life; Thermal degradation; Elution from artificial rainwater; Acute toxicity test; Raphidocelis subcapitata@NIES-35@NIES35
3454@Sugiyama, K., Takahashi, K., Nakazawa, K., Yamada, M., Kato, S., Shinomura, T., Nagashima, Y., Suzuki, H., Ara, T., Harada, J., Takaichi, S.@Oxygenic phototrophs need ζ-carotene isomerase (Z-ISO) for carotene synthesis: Functional analysis in Arthrospira and Euglena.@Plant Cell Physiol.,@61,@276–282.@2020@@Arthrospira; CarotenoidEuglena; Oxygenic phototrophs; Z-ISO; ζ-carotene isomerase@NIES-39@NIES39
3455@Forni, C., Telo, F. R., Caiola, M. G.@Comparative analysis of the polysaccharides produced by different species of Microcystis (Chroococcales, Cyanophyta) .@Phycologia,@36,@181-185.@1997@@@NIES-87@NIES87@NIES-102@NIES102@NIES-98@NIES98@NIES-112@NIES112
3456@Toyama, T., Hanaoka, T., Yamada, K., Suzuki, K., Tanaka, Y., Morikawa, M., Mori, K.@Enhanced production of biomass and lipids by Euglena gracilis via co-culturing with a microalga growth-promoting bacterium, Emticicia sp. EG3.@Biotechnol. Biofuels,@12,@205@2019@@Biomass production; Euglena gracilis; Growth-promoting bacteria; Lipid production; Wastewater effluent@NIES-48@NIES48
3457@Zienkiewicz, M., Krupnik, T., Drożak, A., Kania, K.@PEG-mediated, stable, nuclear and chloroplast transformation of Cyanidioschizon merolae.@Bio-protocol,@9,@e3355 (article ID).@2019@@@NIES-1332@NIES1332@NIES-3377@NIES3377@NIES-4696@NIES4696
3458@Chamizo, S., Adessi, A., Certini, G., De Philippis, R.@Cyanobacteria inoculation as a potential tool for stabilization of burned soils.@Restor. Ecol.,@28,@S106-S114.@2020@@biocrust; erosion; exopolysaccharide content; hydrophobicity; penetration resistance; wildfire@NIES-2121@NIES2121@NIES-1956@NIES1956
3459@Qiu, X., Mukai, K., Shimasaki, Y., Wu, M., Chen, C., Lu, Y., Ichinose, H., Nakashima, T., Kato-Unoki, Y., Oshima, Y.@Diurnal variations in expression of photosynthesis-related proteins in the harmful Raphidophyceae Chattonella marina var. antiqua.@J. Exp. Mar. Biol. Ecol.,@527,@151361 (article ID).@2020@@Chattonella marina var. antiqua; Diurnal variations; Proteomics; Photosynthesis; Two-dimensional gel electrophoresis@NIES-1@NIES1
3460@Ogbonna, C., N. & Chioke, O. J.@Effects of moringa extracts on sedimentation and growth of Chlorella variabilis.@Int. J. Appl. Nat. Sci.,@7,@131-138.@2018@@Cell Growth; Cell Sedimentation; Chlorella variabilis; Harvesting of Microalgae; Moringa Oliefera; Seed Extract@NIES-2541@NIES2541
3461@Hanschen, E. R., Davison, D. R., Ferris, P. J., Michod, R. E.@On the rediscovery of Volvox perglobator (Volvocales, Chlorophyceae) and the evolution of outcrossing from self-fertilization.@Evol. Ecol. Res.,@19,@299-318.@2018@@homothallism; phylogenetics; reversion; self-fertilization; sexual reproduction; volvocine green algae@NIES-289@NIES289@NIES-571@NIES571@NIES-3780@NIES3780@NIES-1859@NIES1859@NIES-421@NIES421@NIES-456@NIES456@NIES-458@NIES458@NIES-460@NIES460@NIES-474@NIES474@NIES-522@NIES522@NIES-541@NIES541@NIES-544@NIES544@NIES-545@NIES545@NIES-564@NIES564@NIES-566@NIES566@NIES-568@NIES568@NIES-569@NIES569@NIES-572@NIES572@NIES-574@NIES574@NIES-578@NIES578@NIES-582@NIES582@NIES-653@NIES653@NIES-732@NIES732@NIES-751@NIES751@NIES-851@NIES851@NIES-856@NIES856@NIES-872@NIES872@NIES-876@NIES876@NIES-877@NIES877@NIES-878@NIES878@NIES-880@NIES880@NIES-882@NIES882@NIES-1038@NIES1038@NIES-1122@NIES1122@NIES-1140@NIES1140@NIES-1148@NIES1148@NIES-1156@NIES1156@NIES-1157@NIES1157@NIES-1362@NIES1362@NIES-1708@NIES1708@NIES-1711@NIES1711@NIES-1713@NIES1713@NIES-2457@NIES2457@NIES-2569@NIES2569@NIES-2738@NIES2738@NIES-3382@NIES3382@NIES-3388@NIES3388@NIES-3782@NIES3782@NIES-3986@NIES3986@NIES-4260@NIES4260@NIES-4145@NIES4145@NIES-4258@NIES4258@NIES-543@NIES543@NIES-4259@NIES4259
3462@Shizuka, K., Ikenaga, M., Murase, J., Nakayama, N., Matsuya, N., Kakino, W., Taruya, H., Maie, N.@Diversity of 2-MIB-producing cyanobacteria in Lake Ogawara: microscopic and molecular ecological approaches.@Aquacult. Sci.,@68,@9-23.@2020@@Pseudanabaena; Amplicon sequencing; Real-time PCR; 2-MIB@NIES-4062@NIES4062@NIES-4238@NIES4238@NIES-4237@NIES4237@NIES-4063@NIES4063
3463@Widyaningrum, D. & Ohama, T.@Initial study of polymer-based nanoparticles effect on carotenogenesis of Haematococcus lacustris.@In IOP Conference Series: Earth and Environmental Science, IOP Publishing Ltd, @457,@012035 (article ID).@2020@@Astaxanthin; carotenogenesis; Haematococcus lacustris; isobutyl-cyanoacrylate; nanoparticles@NIES-144@NIES144
3464@Jiang, Y., Chen, Y., Yang, S., Li, R.@Phylogenetic relationships and genetic divergence of paralytic shellfish toxin- and cylindrospermopsin- producing Cylindrospermopsis and raphidiopsis.@Harmful Algae,@93,@101792 (article ID).@2020@@Biosynthesis; Cyanotoxin; Cylindrospermopsin; Gene cluster; Phylogeny; Saxitoxin@NIES-932@NIES932@NIES-991@NIES991@NIES-1041@NIES1041
3465@Yamaguchi, H., Suzuki, S., Kawachi, M.@Draft genome sequences of four Microcystis aeruginosa strains (NIES-3787, NIES-3804, NIES-3806, and NIES-3807) isolated from Lake Kasumigaura, Japan.@Microbiol. Resour. Ann..,@9,@e00052-20 (article ID).@2020@@@NIES-3787@NIES3787@NIES-3804@NIES3804@NIES-3806@NIES3806@NIES-3807@NIES3807
3466@Sekine, M., Yoshida, A., Akizuki, S., Kishi, M., Toda, T.@Microalgae cultivation using undiluted anaerobic digestate by introducing aerobic nitrification–desulfurization treatment.@Wat. Sci. Tech.,@82,@1070-1080.@2020@@aerobic sludge; anaerobic digestion effluent; Chlorella sorokiniana; free ammonia inhibition; post anaerobic digestion treatment; simultaneous bacterial process@NIES-2173@NIES2173
3467@Kim, Y. E., Matter, I. A., Lee, N., Jung, M., Lee, Y. C., Choi, S. A., Lee, S. Y., Kim, J. R., Oh, Y. K.@Enhancement of astaxanthin production by Haematococcus pluvialis using magnesium aminoclay nanoparticles.@Bioresour. Technol.,@307,@123270 (article ID).@2020@@Haematococcus pluvialis; Astaxanthin; Nanoparticle; Aminoclay; Lipid@NIES-144@NIES144
3468@Harada, R., Hirakawa, Y., Yabuki, A., Kashiyama, Y., Maruyama, M., Onuma, R., Soukal, P., Miyagishima, S., Hampl, V., Tanifuji, G., Inagaki, Y.@Inventory and evolution of mitochondrion-localized family a DNA polymerases in Euglenozoa.@Pathogens,@9,@257 (article ID).@2020@@DNA replication; family A DNA polymerase; plant and protist organellar DNA polymerase; Trypanosomatida; Kinetoplastea; Diplonemea; Euglenida; Prokinetoplastina@NIES-381@NIES381
3469@Liu, J. Y., Jiang, T., Zhang, J. P., Liang, D. C.@Crystal structure of allophycocyanin from red algae Porphyra yezoensis at 2.2-angstrom resolution.@J. Biol. Chem.,@274,@16945-16952.@1999@@@NIES-2104@NIES2104
3470@Guo, Y., Zang, X., Cao, X., Zhang, F., Sun, D., Shang, M., Li, R., Yangzong, Z., Wei, X., Zhang, X.@Cloning and expression of Allophycocyanin gene from Gracilariopsis lemaneiformis and studying the binding sites of phycocyanobilin on its α and β subunits.@J. Appl. Phycol.,@32,@2657-2671.@2020@@Gracilariopsis lemaneiformis; Rhodophyta; Allophycocyanin; Expression; Fluorescence@NIES-2104@NIES2104
3471@Karpf, S., Riche, C. T., Di Carlo, D., Goel, A., Zeiger, W. A., Suresh, A., Portera-Cailliau, C., Jalali, B.@Spectro-temporal encoded multiphoton microscopy and fluorescence lifetime imaging at kilohertz frame-rates.@Nat. Commun.,@11,@2062 (article ID).@2020@@@NIES-48@NIES48
3472@Shikata, T., Taniguchi, E., Sakamoto, S., Kitatsuji, S., Yamasaki, Y., Yoshida, M., Oikawa, H.@Phylogeny, growth and toxicity of the noxious red-tide dinoflagellate Alexandrium leei in Japan.@Reg. Stud. Mar. Sci.,@36,@101265 (article ID).@2020@@Fish; Haemolytic activity; Photoinhibition; rDNA; Rotifer; Temperature@NIES-2146@NIES2146
3473@Mao, F., He, Y., Gin, K. Y.@Antioxidant responses in cyanobacterium Microcystis aeruginosa caused by two commonly used UV filters, benzophenone-1 and benzophenone-3, at environmentally relevant concentrations.@J. Hazard. Mater.,@396,@122587 (article ID).@2020@@Benzophenone-1; Benzophenone-3; Cyanobacteria; Oxidative stress@NIES-843@NIES843
3474@Qiu, X., Chen, C., Shimasaki, Y., Mukai, K., Teramoto, A., Wu, M., Oshima, Y.@Time-series responses in photosynthetic activity, 2-cysteine peroxiredoxin gene expression, and proteomics of Chattonella marina var. antiqua under different oxidative stress.@Harmful Algae,@94,@101808 (article ID).@2020@@2-cysteine peroxiredoxin; Chattonella marina var. antiqua; Exogenous H2O2 stress; Photosynthesis; Proteomics; Reactive oxygen species@NIES-1@NIES1
3475@Shiratori, T., Akinori, Y., Ishida, K-I.@Morphology, ultrastructure, and phylogeny of two novel species of Ventrifissura (V. oblonga n. sp. and V. velata n. sp., Thecofilosea, Cercozoa).@Protist,@171,@125731 (article ID).@2020@@@NIES-4233@NIES4233
3476@Kim, K., Yoon, Y., Cho, H., Hwang, S. J@Molecular probes to evaluate the synthesis and production potential of an odorous compound (2-methylisoborneol) in cyanobacteria.@Int. J. Environ. Res. Public Health,@17,@1933 (article ID).@2020@@2-Methylisoborneol (2-MIB); cyanobacteria; molecular probes; mibC; real-time PCR@NIES-512@NIES512@NIES-824@NIES824@NIES-19@NIES19
3477@Akizuki, S., Cuevas-Rodríguez, G., Toda, T.@Anaerobic digestion effluent treatment using microalgae and nitrifiers in an outdoor raceway pond with fluidized carriers.@Water Sci. Technol.,@82,@1081–1091.@2020@@high-ammonia-containing wastewater; immobilization; light-stress; microalgal-bacterial consortia; nitrification; photo-oxygenation@NIES-2173@NIES2173
3478@Chu, C. Y., Liao, W. R., Huang, R., Lin, L. P.@Haemagglutinating and antibiotic activities of freshwater microalgae.@World J. Microbiol. Biotechnol.,@20,@817–825.@2004@@Antibiotic activity; erythrocytes; freshwater microalgae; haemagglutination@NIES-2229@NIES2229@NIES-2175@NIES2175@NIES-227@NIES227@NIES-226@NIES226@NIES-2163@NIES2163@NIES-2165@NIES2165@NIES-2159@NIES2159@NIES-2189@NIES2189@NIES-2169@NIES2169@NIES-2208@NIES2208@NIES-2211@NIES2211@NIES-2213@NIES2213@NIES-2214@NIES2214@NIES-2231@NIES2231@NIES-2233@NIES2233@NIES-2240@NIES2240@NIES-2241@NIES2241@NIES-2247@NIES2247@NIES-2248@NIES2248@NIES-3284@NIES3284@NIES-3277@NIES3277@NIES-2243@NIES2243
3479@Bhattacharjee, S., Mishra, A. K.@The tale of caspase homologues and their evolutionary outlook: deciphering programmed cell death in cyanobacteria.@J. Exp. Bot.,@71,@4639-4657.@2020@@Altruistic adaptation; caspase homologues; horizontal gene transfer; orthocaspases, PCD morphotypes; programmed cell death@NIES-843@NIES843
3480@Pröschold, T., Pitsch, G., Darienko, T.@Micractinium tetrahymenae (Trebouxiophyceae, Chlorophyta), a new endosymbiont isolated from ciliates.@Diversity-Basel,@12,@200 (article ID).@2020@@Micractinium tetrahymenae; Tetrahymena; Utricularia; facultative endosymbiosis; ciliate-algae symbiosis@NIES-2167@NIES2167@NIES-2171@NIES2171@NIES-4033@NIES4033
3481@Nishimura. Y., Kume, K., Sonehara, K., Tanifuji, G., Shiratori, T., Ishida, K-I., Hashimoto, T., Inagaki, Y., Ohkuma, M.@Mitochondrial genomes of Hemiarma marina and Leucocryptos marina revised the evolution of cytochrome c maturation in Cryptista.@Front. Ecol. Evol.,@8,@140 (article ID).@2020@@kathablepharids; cytochrome c maturation; goniomonads; cryptophytes; holocytochrome c synthase@NIES-1335@NIES1335
3482@Onduka, T., Kono, K., Ito, M., Ohkubo, N., Hano, T., Ito, K., Mochida, K.@Ecological risk assessment of an antifouling biocide triphenyl (octadecylamine) boron in the Seto Inland Sea, Japan.@Mar. Pollut. Bull.,@157,@111320 (article ID).@2020@@Algal growth inhibition test; Crustacean reproduction test; Early-life stage toxicity test; Species sensitivity distribution@NIES-324@NIES324
3483@Krausfeldt, L. E., Farmer, A. T., Castro, H. F., Boyer, G. L., Campagna, S. R., Wilhelm, S. W.@Nitrogen flux into metabolites and microcystins changes in response to different nitrogen sources in Microcystis aeruginosa NIES‐843.@Environ. Microbiol.,@22,@2419-2431.@2020@@@NIES-843@NIES843
3484@Yokoyama, A., Scott, J. L., Zuccarello, G. C., Kajikawa, M., Hara, Y., West, J. A.@Corynoplastis japonica gen. et sp. nov. and Dixoniellales ord. nov. (Rhodellophyceae, Rhodophyta) based on morphological and molecular evidence.@Phycol. Res.,@57,@278-289.@2009@@chloroplast; Corynoplastis gen. et sp. nov.; Dixoniellales nov. ord.; Golgi; mannitol; Porphyridiales; pyrenoids; Rhodella; Rhodellales; Rhodellophyceae@NIES-2662@NIES2662
3485@Shihira, I. & Krauss, R. W.@Chlorella. Physiology and taxonomy of forty-one isolates.@, University of Maryland, College Park.@@pp. 1-97.@1965@@@NIES-685@NIES685@NIES-687@NIES687
3486@Miyauchi, H., Okada, K., Fujiwara, S., Tsuzuki, M.@Characterization of CO₂ fixation on algal biofilms with an infrared gas analyzer and importance of a space-rich structure on the surface.@Algal Res.,@46,@101814 (article ID).@2020@@Attached culture; Carbon fixation; Chlorella; Photosynthesis@NIES-2160@NIES2160
3487@Hikihara, R., Yamasaki, Y., Shikata, T., Nakayama, N., Sakamoto, S., Kato, S., Hatate, H., Tanaka, R.@Analysis of phytosterol, fatty acid, and carotenoid composition of 19 microalgae and 6 bivalve species.@J. Aquat. Food Prod. Technol.,@29,@461-479.@2020@@Microalgae; bivalve; phytosterol; fucosterol; fatty acid@NIES-1@NIES1@NIES-10@NIES10@NIES-324@NIES324
3488@Antonaru, L. A., Cardona, T., Larkum, A. W. D., Nürnberg, D. J.@Global distribution of a chlorophyll f cyanobacterial marker.@ISME J.,@14,@2275–2287.@2020@@@NIES-593@NIES593@NIES-3974@NIES3974@NIES-267@NIES267
3489@Churro, C., Semedo-Aguiar, A. P., Silva, A.D., Pereira-Leal, J. B., Leite, R. B.@A novel cyanobacterial geosmin producer, revising GeoA distribution and dispersion patterns in Bacteria.@Sci Rep,@10,@8679 (article ID).@2020@@@NIES-25@NIES25@NIES-2111@NIES2111@NIES-2100@NIES2100
3490@Isozaki, A., Nakagawa, Y., Loo, M. H., Shibata, Y., Tanaka, N., Setyaningrum, D. L., Park, J.-W., Shirasaki, Y., Mikami, H., Huang, D., Tsoi, H., Riche, C. T., Ota, T., Miwa, H., Kanda, Y., Ito, T., Yamada, K., Iwata, O., Suzuki, K., Ohnuki, S., Ohya, Y., Kato, Y., Hasunuma, T., Matsusaka, S., Yamagishi, M., Yazawa, M., Uemura, S., Nagasawa, K., ,Watarai, H. Di Carlo, D., Goda, K.@Sequentially addressable dielectrophoretic array for high-throughput sorting of large-volume biological compartments.@Sci. Adv.,@6,@eaba6712 (article ID).@2020@@@NIES-48@NIES48@NIES-4141@NIES4141
3491@Tomaru, Y. & Kimura, K.@Novel protocol for estimating viruses specifically infecting the marine planktonic diatoms.@Diversity-Basel,@12,@225 (article ID).@2020@@marine diatom; Chaetoceros tenuissimus; Chaetoceros setoensis; host-virus specificity; RdRp; ssRNA virus; ssDNA virus; viral genome@NIES-3715@NIES3715@NIES-3712@NIES3712@NIES-3714@NIES3714
3492@Han, S.-I., Chang, S. H., Lee, C., Jeon, M. S., Heo, Y. M., Kim, S.@Astaxanthin biosynthesis promotion with pH shock in the green microalga, Haematococcus lacustris.@Bioresour. Technol.,@314,@123725 (article ID).@2020@@Haematococcus lacustris; Astaxanthin; pH shock; Biological change; Mass culture@NIES-144@NIES144
3493@Nishimura, T., Uchida, H., Noguchi, R., Oikawa, H., Suzuki, T., Funaki, H., Ihara, C., Hagino, K., Arimitsu, S., Tanii, Y., Abe, S., Hashimoto, K., Mimura, K., Tanaka, K., Yanagida, I., Adachi, M.@Abundance of the benthic dinoflagellate Prorocentrum and the diversity, distribution, and diarrhetic shellfish toxin production of Prorocentrum lima complex and P. caipirignum in Japan.@Harmful Algae,@96,@101687 (article ID).@2020@Medium　心太@Dinoflagellate; Dinophysistoxin-1; Okadaic acid; Phylogeny; Prorocentrum caipirignum; Prorocentrum lima complex@NIES-4555@NIES4555@NIES-4554@NIES4554@NIES-4557@NIES4557@NIES-4558@NIES4558
3494@Suzuki, Y. & Hirayama, S.@Development of rapid and simple bioassay using seaweed Pyropia yezoensis..@J. JIME,@54,@898-904 (in Japanese with English summary).@2019@@@NIES-16@NIES16
3495@Pham, T.-L., Tran, T. H. Y., Hoang, N. S., Ngo, X. Q., Tran, T. T.@Co-occurrence of microcystin-and geosminproducing cyanobacteria in the Tri An Reservoir, a drinking-water supply in Vietnam.@Fundam. Appl. Limnol.,@193,@299-311.@2020@@taste and odor; off-flavor compound; earthy/muddy smell; cyanotoxin@NIES-102@NIES102
3496@Xu, M., de Boer, H., Olafsdottir, E. S., Omarsdottir, S., Heidmarsson, S.@Phylogenetic diversity of the lichenized algal genus Trebouxia (Trebouxiophyceae, Chlorophyta): a new lineage and novel insights from fungal-algal association patterns of Icelandic cetrarioid lichens (Parmeliaceae, Ascomycota).@Bot. J. Linnean Soc.,@194,@460–468.@2020@@Iceland; lichen; Parmeliaceae; phylogeny; symbiosis; Trebouxia@NIES-1278@NIES1278@NIES-1289@NIES1289@NIES-1271@NIES1271
3497@Liu, S.-L., Chiang, Y.-R., Yoon, H. S., Fu, H.-Y.@Comparative genome analysis reveals Cyanidiococcus gen. nov., a new extremophilic red algal genus sister to Cyanidioschyzon (Cyanidioschyzonaceae, Rhodophyta).@J. Phycol.,@56,@1428-1442.@2020@@@NIES-3377@NIES3377@NIES-4390@NIES4390@NIES-4696@NIES4696
3498@Nozaki, H., Mahakham, W., Heman, W., Matsuzaki, R., Kawachi, M.@A new preferentially outcrossing monoicous species of Volvox sect. Volvox (Chlorophyta) from Thailand.@PLoS One,@15,@e0235622 (article ID).@2020@@@NIES-3382@NIES3382@NIES-3383@NIES3383@NIES-4432@NIES4432@NIES-4433@NIES4433@NIES-4435@NIES4435@NIES-4436@NIES4436@NIES-2740@NIES2740@NIES-4021@NIES4021@NIES-4434@NIES4434@NIES-3874@NIES3874@NIES-2736@NIES2736@NIES-4336@NIES4336
3499@Kareya, M. S., Mariam, I., Shaikh, K. M., Nesamma, A. A., Jutur, P. P.@Photosynthetic carbon partitioning and metabolic regulation in response to very-low and high CO2 in Microchloropsis gaditana NIES 2587.@Front. Plant Sci.,@11,@981 (article ID).@2020@@Microchloropsis; biomass; carbon dioxide; oleaginous microalga; photosynthetic cell factories@NIES-2587@NIES2587
3500@Baqué, M., Napoli, A., Fagliarone, C., Moeller, R., de Vera, J. P., Billi, D.@Carotenoid raman signatures are better preserved in dried cells of the desert cyanobacterium Chroococcidiopsis than in hydrated counterparts after high-dose gamma irradiation.@Life-Basel,@10,@83 (article ID).@2020@@biosignatures; extremophiles; ionizing radiation; Raman spectroscopy; cyanobacteria; Mars exploration@NIES-4073@NIES4073@NIES-4105@NIES4105@NIES-25@NIES25@NIES-2100@NIES2100@NIES-4103@NIES4103
3501@Nakanishi, A., Iritani, K., Sakihama, Y., Ozawa, N., Mochizuki, A., Watanabe, M.@Construction of cell-plastics as neo-plastics consisted of cell-layer provided green alga Chlamydomonas reinhardtii covered by two-dimensional polymer.@AMB Express,@10,@112 (article ID).@2020@@Chlamydomonas reinhardtii; Two-dimensional polymer; Stacking structure; Cell-plastics@NIES-2235@NIES2235
3502@Cho, Y.-L., Lee, Y.-C., Hsu, L.-C., Wang, C.-C., Chen, P.-C., Liu, S.-L., Teah, H.-Y., Liu, Y.-T., Tzou, Y.-M.@Molecular mechanisms for Pb removal by Cyanidiales: a potential biomaterial applied in thermo-acidic conditions.@Chem. Eng. J.,@401,@125828 (article ID).@2020@@Cyanidiales; Thermoacidophilic; Lead; Speciation; XAS; Protein secondary structure@NIES-551@NIES551@NIES-3377@NIES3377
3503@Deka, D., Marwein, R., Chikkaputtaiah, C., Kaki, S. S., Azmeera, T., Boruah, H. P. D., Velmurugan, N.@Strain improvement of long-chain fatty acids producing Micractinium sp. by flow cytometry.@Process Biochem.,@96,@90-101.@2020@@Long-chain fatty acids; Micractinium sp.; Strain improvement; Fluorescent activated cell sorter; Adaptive evolution@NIES-2590@NIES2590
3504@Asukabe, H., Akahori, S., Ueno, E., Nakayama, T., Yamashita, R., Arii, S., Harada, K., Imanishi, S. Y.@Cyanobacterial classification with the toxicity using MALDI Biotyper.@J. Am. Soc. Mass Spectrom.,@31,@1572-1578.@2020@@cyanobacteria; MALDI Biotyper; microcystins; profiling@NIES-512@NIES512@NIES-981@NIES981@NIES-42@NIES42@NIES-3708@NIES3708@NIES-931@NIES931@NIES-87@NIES87@NIES-89@NIES89@NIES-100@NIES100@NIES-101@NIES101@NIES-102@NIES102@NIES-103@NIES103@NIES-104@NIES104@NIES-105@NIES105@NIES-107@NIES107@NIES-111@NIES111@NIES-112@NIES112@NIES-298@NIES298@NIES-478@NIES478@NIES-604@NIES604@NIES-843@NIES843@NIES-1025@NIES1025@NIES-1043@NIES1043@NIES-1058@NIES1058@NIES-1061@NIES1061@NIES-1064@NIES1064@NIES-1068@NIES1068@NIES-1069@NIES1069@NIES-1071@NIES1071@NIES-1076@NIES1076@NIES-1085@NIES1085@NIES-1099@NIES1099@NIES-1101@NIES1101@NIES-1105@NIES1105@NIES-1113@NIES1113@NIES-1115@NIES1115@NIES-1126@NIES1126@NIES-1133@NIES1133@NIES-1134@NIES1134@NIES-1135@NIES1135@NIES-1144@NIES1144@NIES-1157@NIES1157@NIES-1215@NIES1215@NIES-1698@NIES1698@NIES-81@NIES81@NIES-266@NIES266@NIES-3733@NIES3733@NIES-808@NIES808@NIES-809@NIES809@NIES-835@NIES835@NIES-1642@NIES1642@NIES-1652@NIES1652@NIES-1668@NIES1668@NIES-1672@NIES1672@NIES-1673@NIES1673@NIES-592@NIES592@NIES-932@NIES932@NIES-3734@NIES3734@NIES-1678@NIES1678@NIES-2131@NIES2131@NIES-208@NIES208@NIES-510@NIES510@NIES-207@NIES207@NIES-905@NIES905@NIES-928@NIES928@NIES-989@NIES989@NIES-3736@NIES3736@NIES-846@NIES846@NIES-593@NIES593@NIES-3757@NIES3757@NIES-27@NIES27@NIES-2412@NIES2412@NIES-416@NIES416@NIES-433@NIES433@NIES-3755@NIES3755@NIES-847@NIES847@NIES-230@NIES230@NIES-2087@NIES2087@NIES-611@NIES611@NIES-73@NIES73@NIES-515@NIES515@NIES-945@NIES945@NIES-1643@NIES1643@NIES-2665@NIES2665@NIES-39@NIES39@NIES-1677@NIES1677@NIES-3756@NIES3756
3505@Pham, T.-L., Bui, M. H., Driscoll, M., Shimizu, K., Motoo, U.@First report of geosmin and 2-methylisoborneol (2-MIB) in Dolichospermum and Oscillatoria from Vietnam.@Limnology,@22,@43–56.@2020@@Off-flavour compounds; Taste and odour; Tropical water; Cyanobacteria@NIES-1648@NIES1648@NIES-814@NIES814@NIES-1879@NIES1879@NIES-33@NIES33@NIES-81@NIES81@NIES-19@NIES19
3506@Azizi, M., Moteshafi, H., Hashemi, M.@A novel CO2 steady feeding based on the pH steady strategy data in the Haematococcus pluvialis cultivation to maximize the cell growth and carbon bio-sequestration.@Bioresour. Technol.,@314,@123752 (article ID).@2020@@Haematococcus pluvialis; CO2 feeding; Productivity; CO2 bio-fixation; RuBisCO activity@NIES-144@NIES144
3507@Tharek, A., Jamaluddin, H., Salleh, M. M., Yahya, N. A., Kaha, M., Hara, H., Iwamoto, K., Mohamad, S. E.@Astaxanthin production by tropical microalgae strains isolated from environment in Malaysia.@Asian Jr. of Microbiol. Biotech. Env. Sc.,@22,@168-173.@2020@@Astaxanthin, H. pluvialis; Coelastrum sp.; Acutodesmus obliquus; High light; Nitrogen starvation; mixotrophy@NIES-144@NIES144
3508@Yamashita, K., Tokunaga, E.@Noninvasive and safe cell viability assay for Paramecium using natural pigment extracted from food.@Sci Rep,@10,@10996 (article ID).@2020@@@NIES-2238@NIES2238
3509@Qian, J., Liu, X, Ban, S, Fujiwara, M, Kodera, T, Akizuki, S, Toda, T.@pH treatments in continuous cultivation to maximize microalgal production and nutrient removal from anaerobic digestion effluent of aquatic macrophytes.@J. Appl. Phycol.,@32,@3349–3362.@2020@@Biomass recovery; Flow-through cultivation; Nutrient removal; pH control; Mg availability; Bio-digester effluent@NIES-2173@NIES2173
3510@Niu, C., Du, G., Li, R., Wang, C.@Interactive effects of increased temperature, elevated pCO2 and different nitrogen sources on the coccolithophore Gephyrocapsaoceanica.@PLoS One,@15,@e0235755 (article ID).@2020@@@NIES-1318@NIES1318
3511@Nitta, N. et al.@Raman image-activated cell sorting.@Nat. Commun.,@11,@3452 (article ID).@2020@@@NIES-48@NIES48@NIES-2293@NIES2293@NIES-2463@NIES2463@NIES-3640@NIES3640
3512@Watanabe, S.@Reclassification of Chlamydomonas monticola as Heterochlamydomonas (Volvocales, Chlorophyceae).@Phycol. Res.,@68,@332-335.@2020@@basal apparatus; 18S rDNA, naked swimming cells; parallel basa bodies; pyrenoid; soil alga; unequal flagella@NIES-157@NIES157
3513@Pascual, G., Sano, D., Sakamaki, T., Nishimura, O.@Effects of chemical interaction of nutrients and EDTA on metals toxicity to Pseudokirckneriella subcapitata.@Ecotox. Environ. Safe.,@203,@110966 (article ID).@2020@@Metal toxicity; Nutrient metal; Non-nutrient metal; EDTA; Metal speciation@NIES-35@NIES35
3514@Miao, M., Li, Z., Hwang, E.-A., Kim, H.-K., Lee, H., Kim, B.-H.@Two new benthic diatoms of the genus Achnanthidium (Bacillariophyceae) from the Hangang River, Korea.@Diversity-Basel,@12,@285 (article ID).@2020@@Achnanthidium; freshwater; molecular phylogeny; morphology; rbcL; SSU; taxonomy@NIES-372@NIES372@NIES-407@NIES407@NIES-410@NIES410@NIES-411@NIES411@NIES-412@NIES412@NIES-413@NIES413@NIES-414@NIES414
3515@Morimoto, D., Yoshida, T., Sawayama, S.@Draft genome sequence of the astaxanthin-producing microalga Haematococcus lacustris Strain NIES-144.@Microbiol. Resour. Ann..,@9,@e00128-20 (article ID).@2020@@@NIES-144@NIES144
3516@Ng, F.-L., Phang, S.-M., Iwamoto, M., Manaka, T., Thong, C.-H., Shimosawa, K., Periasamy, V., Kumar, G. G., Yunus, K., Fisher, A. C.@Algal biophotovoltaic devices: Surface potential studies.@ACS Sustain. Chem. Eng.,@8,@10511-10520.@2020@@Algal biophotovoltaic device; Bioelectricity; Biotechnology; Surface potential; Algal biofilm@NIES-642@NIES642
3517@Jo, B.-H., Lee, C. S., Song, H.-R., Lee, H.-G., Oh, H.-M.@Development of novel microsatellite markers for strain-specific identification of Chlorella vulgaris.@J. Microbiol. Biotechnol.,@24,@10.3354/ame01939@2014@@Chlorella vulgaris; chloroplast; microsatellite; marker; polymorphism; sequence repeat@NIES-2170@NIES2170@NIES-641@NIES641@NIES-642@NIES642@NIES-686@NIES686@NIES-1269@NIES1269
3518@Jiang, Y. & Liu, Y.@Influence of increased nutrient supply on Microcystis aeruginosa at cellular and proteomic levels.@Aquat. Microb. Ecol.,@85,@47-58.@2020@@Cyanobacteria; Nitrogen; Phosphorus; Protein-protein interaction network; Growth; Microcystis@NIES-843@NIES843
3519@Akizuki, S., Cuevas-Rodríguez, G., Toda, T.@Nitrification of anaerobic digestate using a consortium of microalgae and nitrifiers in an open photobioreactor with moving bed carriers.@Chemosphere,@263,@127948 (article ID).@2021@@Bacterial immobilization; light attenuation; light stress; high-ammonia wastewater; photo-oxygenation@NIES-2173@NIES2173
3520@Lee, S, Kato, J, Takiguchi, N. Kuroda, A., Ikeda, T., Mitsutani, A., Ohtake, H.@Involvement of an extracellular protease in algicidal activity of the marine bacterium Pseudoalteromonas sp. strain A28.@Appl. Environ. Microbiol.,@66,@4334-4339.@2000@@@NIES-324@NIES324
3521@Zhu, J. & Wakisaka, M.@Application of lignosulfonate as the growth promotor for freshwater microalga Euglena gracilis to increase productivity of biomass and lipids.@Fuel,@283,@118920 (article ID).@2021@@Euglena gracilis; Lignosulfonates; Photosynthetic pigment; Lipid accumulation; Multivariate analysis@NIES-48@NIES48
3522@Kuwata, A., Saitoh, K., Nakamura, Y., Ishinomiya, M., Sato, N.@Draft whole-genome sequence of Triparma laevis f. inornata (Parmales, Bolidophyceae), isolated from the Oyashio region, Western North Pacific Ocean.@Microbiol. Resour. Ann..,@9,@e00367-20 (article ID).@2020@@@NIES-2565@NIES2565
3523@Shen, Q., Shimizu, K., Miao, H., Tsukino, S., Utsumi, M., Lei, Z., Zhang, Z., Nishimura, O., Asada, Y., Fujimoto, N., Takanashi, H., Akiba, M.@Effects of elevated nitrogen on the growth and geosmin productivity of Dolichospermum smithii.@Environ. Sci. Pollut. Res.,@28,@177–184.@2020@@Geosmin; geoA Expression; Cyanobacteria; Nitrogen; Earthy-musty odor@NIES-824@NIES824
3524@Ohbayashi, R., Hirooka, S., Onuma, R., Kanesaki, Y., Hirose, Y., Kobayashi, Y., Fujiwara, T., Furusawa, C., Miyagishima, S.@Evolutionary changes in DnaA-dependent chromosomal replication in cyanobacteria.@Front. Microbiol.,@11,@786 (article ID).@2020@@CDS skew; chromosome replication; cyanobacteria; DnaA, GC skew; polyploidy@NIES-3708@NIES3708
3525@Matsuzaki, R., Kawachi, M., Nozaki, H., Nohara, S., Suzuki, I.@Sexual reproduction of the snow alga Chloromonas fukushimae (Volvocales, Chlorophyceae) induced using cultured materials.@PLoS One,@15,@e0238265 (article ID).@2020@@@NIES-3389@NIES3389@NIES-3390@NIES3390@NIES-4452@NIES4452@NIES-4453@NIES4453
3526@Takeshita, T., Takeda,K., Ota, S., Yamazaki, T., Kawano, S.@A simple method for measuring the starch and lipid contents in the cell of microalgae.@Cytologia,@80,@475-481.@2015@@Chlorella; Starch; Lipid; Microplate; Trade-off@NIES-2152@NIES2152
3527@Kashiyama, Y. et al.@Taming chlorophylls by early eukaryotes underpinned algal interactions and the diversification of the eukaryotes on the oxygenated Earth.@ISME J.,@13,@1899-1910.@2019@@@NIES-1396@NIES1396@NIES-2566@NIES2566@NIES-8@NIES8@NIES-254@NIES254@NIES-286@NIES286@NIES-324@NIES324@NIES-331@NIES331@NIES-353@NIES353@NIES-381@NIES381@NIES-494@NIES494@NIES-623@NIES623@NIES-624@NIES624@NIES-997@NIES997@NIES-1012@NIES1012@NIES-1013@NIES1013@NIES-1015@NIES1015@NIES-1320@NIES1320@NIES-1330@NIES1330@NIES-1333@NIES1333@NIES-1334@NIES1334@NIES-1335@NIES1335@NIES-1372@NIES1372@NIES-1377@NIES1377@NIES-1388@NIES1388@NIES-1390@NIES1390@NIES-1397@NIES1397@NIES-1408@NIES1408@NIES-1438@NIES1438@NIES-1439@NIES1439@NIES-1441@NIES1441@NIES-1964@NIES1964@NIES-2008@NIES2008@NIES-2142@NIES2142@NIES-2144@NIES2144@NIES-2149@NIES2149@NIES-2300@NIES2300@NIES-2305@NIES2305@NIES-2502@NIES2502@NIES-2584@NIES2584@NIES-2586@NIES2586@NIES-2589@NIES2589@NIES-2590@NIES2590@NIES-2677@NIES2677@NIES-2878@NIES2878@NIES-3356@NIES3356@NIES-3374@NIES3374@NIES-3775@NIES3775@NIES-2325@NIES2325@NIES-2498@NIES2498@NIES-2433@NIES2433@NIES-274@NIES274
3528@Kuroda, A., Nakashima, T., Yamaguchi, K., Oda, T.@Isolation and characterization of light-dependent hemolytic cytotoxin fromharmful red tide phytoplankton Chattonella marina.@Comp. Biochem. Physiol. C-Pharmacol. Toxicol. Endocrinol.,@141,@297-305.@2005@@Red tide; Phytoplankton; Raphidophycean flagellate; Chattonella marina; Hemolysin; Photosensitizer; Pheophorbide a; Cytotoxin; Photodynamic therapy@NIES-6@NIES6@NIES-15@NIES15
3529@Tsuchikane, Y., Hamaji, T., Ota, K., Kato, S.@Establishment of a clonal culture of unicellular conjugating algae.@J. Vis. Exp.,@14,@e57761 (article ID).@2018@@@NIES-4321@NIES4321
3530@Kayama, M., Chen, J.-F., Nakada, T., Nishimura, Y., Shikanai, T., Azuma, T., Miyashita, H., Takaichi, S., Kashiyama, Y., Kamikawa, R.@A non-photosynthetic green alga illuminates the reductive evolution of plastid electron transport systems.@BMC Biol.,@18,@126 (article ID).@2020@@Carotenoid; NADPH; Non-photosynthetic plastid; Plastoquinol; Plastid terminal oxidase; Transient RNA interference knockdown@NIES-4405@NIES4405
3531@Hirooka, S., Tomita, R., Fujiwara, T., Ohnuma, M., Kuroiwa, H., Kuroiwa, T., Miyagishima, S.@Efficient open cultivation of cyanidialean red algae in acidified seawater.@Sci Rep,@10,@13794 (article ID).@2020@@@NIES-2137@NIES2137@NIES-3377@NIES3377
3532@Kurita, T., Moroi, K., Iwai, M., Okazaki, K., Shimizu, S., Nomura, S., Saito, F., Maeda, S., Takami, A., Sakamoto, A., Ohta, H., Sakuma, T., Yamamoto, T.@Efficient and multiplexable genome editing using Platinum TALENs in oleaginous microalga, Nannochloropsis oceanica NIES-2145.@Genes Cells,@25,@695-702.@2020@@@NIES-2145@NIES2145
3533@Tomita-Yokotani, K., Kimura, S., Ong, M., Ajioka, R., Igarashi, Y., Fujishiro, H., Katoh, H., Hashimoto, H., Mita, H., Yokobori, S., Ohmori, M.@Tolerance of dried cells of a terrestrial cyanobacterium, Nostoc sp. HK-01 to temperature cycles, helium-ion beams, ultraviolet radiation (172 and 254 nm), and gamma rays: Primitive analysis for space experiments.@Eco-Engineering,@32,@47-53.@2020@@Cyanobacteria; Nostoc sp.HK-01; space; environmental tolerance@NIES-2109@NIES2109
3534@Kurita, T., Iwai, M., Moroi, K., Okazaki, K., Nomura, S., Saito, F., Maeda, S., Takami, A., Sakamoto, A., Ohta, H., Sakuma, T., Yamamoto, T.@Genome editing with removable TALEN vectors harboring a yeast centromere and autonomous replication sequence in oleaginous microalga.@Sci Rep,@12,@2480 (article ID).@2022@@@NIES-2145@NIES2145
3535@Saito, T., Ichihara, T., Inoue, H., Uematsu, T., Hamada, S., Watanabe, T., Takimura, Y., Webb, J.@Comparison of areal productivity of Nannochloropsis oceanica between lab-scale and industrial-scale raceway pond.@Mar. Biotechnol.,@22,@836–841.@2020@@Microalgae production; Nannochloropsis; Open raceway pond; Sequential batch culture@NIES-2145@NIES2145
3536@McKindles, K. M., Manes, M. A., DeMarco, J. R., McClure, A., McKay, R. M., Davis, T. W., Bullerjahn, G. S.@Dissolved microcystin release coincident with lysis of a Microcystis-dominated bloom in western Lake Erie attributed to a novel cyanophage.@Appl. Environ. Microbiol.,@86,@e01397-20.@2020@@@NIES-843@NIES843
3537@Nakada, T. & Susanti, H.@Taxonomy and nomenclature of the recently published chlamydomonad genera Ostravamonas and Paludistella (Volvocales, Chlorophyceae).@Phytotaxa,@449,@295-298.@2020@@@NIES-4317@NIES4317@NIES-4318@NIES4318
3538@Bae, E. H., Kang, J.-H., Park, C.-S.@New report on cyanophyte in Korea, Microseira wollei (Farlow ex Gomont) G.B.McGregor and Sendall ex Kennis (Oscillatoriaceae).@Journal of Species Research,@9,@210-217.@2020@@16S rRNA; Microseira wollei; morphology; unrecorded@NIES-4236@NIES4236
3539@Inoue-Sakamoto, K., Nazifi, E., Tsuji, C., Asano, T., Nishiuchi, T., Matsugo, S., Ishihara, K., Kanesaki, Y., Yoshikawa, H., Sakamoto, T.@Characterization of mycosporine-like amino acids in the cyanobacterium Nostoc verrucosum.@J. Gen. Appl. Microbiol.,@64,@203-211.@2018@@antioxidant; environmental adaptation; mycosporine-like amino acid (MAA); mys genes@NIES-2538@NIES2538@NIES-2539@NIES2539
3540@Lepere, C., Demura, M., Kawachi, M., Romac, S., Probert, I., Vaulot, D.@Whole-genome amplification (WGA) of marine photosynthetic eukaryote populations.@FEMS Microbiol. Ecol.,@76,@513-523.@2011@@whole-genome amplification; photosynthetic; microbial eukaryote; flow cytometry sorting; rRNA genes@NIES-252@NIES252@NIES-1411@NIES1411
3541@Makino, I. & Yahagi, Y.@Invasion course of Anabaena and Microcystis in the catchment area.@J. Environ. Safety,@7,@213-219 (in Japanese with English summary).@2016@@Blue-green algal; Anabaena; Microcystis; genetic analysis; fish pond@NIES-823@NIES823@NIES-1164@NIES1164
3542@Gontcharov, A. A. & Melkonian, M.@A study of conflict between molecular phylogeny and taxonomy in the Desmidiaceae (Streptophyta, Viridiplantae): analyses of 291 rbcL sequences.@Protist,@162,@253-267.@2011@@@NIES-285@NIES285@NIES-297@NIES297@NIES-452@NIES452
3543@Demura, M.@Biomass productivity and paramylon content of 3 strains of Euglena gracilis.@Bull. Fac. Agr., Saga Univ.,@105,@1-7 (in Japanese with English summary).@2020@@Euglena; paramylon; biomass productivity; cost@NIES-49@NIES49@NIES-47@NIES47@NIES-48@NIES48
3544@Tanioka, Y.@Food chemistry and physiological function of pseudovitamin B12.@Vitamins (Japan),@93,@47-51 (in Japanese with English summary).@2019@@pseudovitamin B12; corrinoid compounds; cyanobacteria; meheionine synthase; shellfish@NIES-39@NIES39
3545@Chernomor, O., Peters, L., Schneidewind, J., Loeschcke, A., Knieps-Grünhagen, E., Schmitz, F., von Lieres, E.,Kutta, R. J., Svensson, V., Jaeger, K., Drepper, T.,von Haeseler, A., Krauss, U.@Complex evolution of light-dependent protochlorophyllide oxidoreductases in aerobic anoxygenic phototrophs: origin, phylogeny and function.@Mol. Biol. Evol.,@38,@819-837.@2021@@light-driven enzyme; chlorophyll biosynthesis; evolution; aerobic anoxygenic phototrophic bacteria; photosynthesis@NIES-981@NIES981@NIES-2135@NIES2135
3546@Mukai, K., Shimasaki, Y., Qiu, X., Kato-Unoki, Y., Chen, K., Takai, Y., Khanam M. R. M., Chairil, A. E., Oshima, Y.@Gene expression stability of candidate reference genes under different culture conditions for quantitative PCR in the raphidophyte Chattonella marina.@Phycologia,@59,@556-565.@2020@@Chattonella marina; Quantitative PCR; Reference gene@NIES-1@NIES1
3547@Devi, A., Chiu, Y.-T., Hsueh, H.-T., Lin, T.-F.@Quantitative PCR based detection system for cyanobacterial geosmin/2-methylisoborneol (2-MIB) events in drinking water sources: Current status and challenges.@Water Res.,@188,@116478 (article ID).@2021@@biomolecular; drinking water; database; geo; mic; monitoring; Taq-Man probes@NIES-512@NIES512@NIES-4238@NIES4238@NIES-4237@NIES4237@NIES-4063@NIES4063@NIES-4062@NIES4062
3548@Smith, D. R. & Craig, R. J.@Does mitochondrial DNA replication in Chlamydomonas require a reverse transcriptase?@New Phytol.,@229,@1192-1195.@2021@@@NIES-2212@NIES2212
3549@Shirokawa, Y. & Shimada, M.@Synchronized emergence under diatom sperm competition.@Proc. R. Soc. Lond. Ser. B-Biol. Sci.,@287,@20201074 (article ID).@2020@@sexual differentiation; evolutionary game theory; synchronization; centric diatom; spem competition@NIES-2364@NIES2364
3550@Yoshida, C., Murakami, M., Niwa, A., Takeya, M., Osanai, T.@Efficient extraction and preservation of thermotolerant phycocyanins from red alga Cyanidioschyzon merolae.@J. Biosci. Bioeng.,@131,@161-167.@2021@@Cyanidioschyzon merolae; Microalgae; Phycocyanin; Protein extraction; Red algae@NIES-3377@NIES3377@NIES-4696@NIES4696
3551@Zha, S., Liang, Y., Oda, T., Ishibashi, F.@Bioactivities of algicidal C18 hydroxy unsaturated fatty acid isolated from the red alga Tricleocarpa jejuensis and its synthesized propargylic derivative.@Algal Res.,@52,@102097 (article ID).@2020@@Tricleocarpa jejuensis; C18 hydroxy unsaturated fatty acid; Red tide phytoplankton; Algicidal activity; Antibacterial activity; Cytotoxicity@NIES-1@NIES1@NIES-3621@NIES3621
3552@Azaman, S. N. A., Wong, D. C. J., Tan, S. W., Yusoff, F. M., Nagao, N., Yeap, S. K.@De novo transcriptome analysis of Chlorella sorokiniana: effect of glucose assimilation, and moderate light intensity.@Sci Rep,@10,@17331 (article ID).@2020@@@NIES-2168@NIES2168
3553@Flores, D. C., Fricke, M., Wesp, V., Desirò, D., Kniewasser, A., Hölzer, M., Marz, M., Mittag, M.@A marine Chlamydomonas sp. emerging as an algal model.@J. Phycol.,@57,@54-69.@2021@@@NIES-2241@NIES2241@NIES-2220@NIES2220@NIES-2223@NIES2223@NIES-2218@NIES2218@NIES-2236@NIES2236@NIES-2248@NIES2248@NIES-2242@NIES2242@NIES-882@NIES882@NIES-2204@NIES2204@NIES-2202@NIES2202@NIES-2211@NIES2211@NIES-2229@NIES2229@NIES-2207@NIES2207
3554@Nakanishi, A., Iritani, K., Sakihama, Y., Watanabe, M., Mochiduki, A., Tsuruta, A., Sakamoto, S., Ota, A.@Fabrication and biodegradability of starch cell-plastics as recyclable resources.@Appl. Sci.,@11,@847 (article ID).@2021@@cell-plastics; biodegradability; unicellular green alga; green plastics@NIES-2235@NIES2235
3555@Soulier, N. & Bryant, D. A.@The structural basis of far-red light absorbance by allophycocyanins.@Photosynth. Res.,@147,@11–26.@2020@@Far-red light photoacclimation; Low-light photoacclimation; Photosynthesis; Phycobiliproteins; Phycobilisomes; Phycocyanobilin; Site-directed mutagenesis@NIES-46@NIES46@NIES-2134@NIES2134
3556@Suzuki, Y., Johuchi, T., Saijo, H., Takahashi, K., Ashitani, T.@Inhibition of the harmful alga Microcystis aeruginosa by sugi (Cryptomeria japonica) bark.@J. Wood Sci.,@66,@75 (article ID).@2020@@Woody wastes; Extract; Algal bloom; Allelopathy; Lake environment@NIES-87@NIES87
3557@Moon, G., Lee, N., Kang, S., Park, J., Kim, Y.-E., Oh, Y.-K., Chung, S.@Hydrothermal synthesis of novel two-dimensional α-quartz nanoplates and their applications in energy-saving, high-efficiency, microalgal biorefineries.@Chem. Eng. J.,@413,@127467 (article ID).@2021@@α-Quartz; Nanoplates; Hydrothermal; Microalgae; Biorefinery@NIES-144@NIES144
3558@Yamagishi, T., Yamaguchi, H., Suzuki, S., Yoshikawa, M., Jameson, I., Lorenz, M., Nobles, D. R., Campbell, C., Seki, M., Kawachi, M., Yamamoto, H.@Comparative genome analysis of test algal strain NIVA-CHL1 (Raphidocelis subcapitata) maintained in microalgal culture collections worldwide.@PLoS One,@15,@e0241889 (article ID).@2020@@@NIES-35@NIES35
3559@Ripken, C., Khalturin, K., Shoguchi, E.@Response of coral reef dinoglagellates to nanoplastics under experimental conditions suggests downregulation of cellular metabolism.@Microorganisms,@8,@1759 (article ID).@2020@@nanoplastics; dinoflagellate; coral reef; Symbiodinium; Cladocopium; gene expression@NIES-4077@NIES4077@NIES-4076@NIES4076
3560@Nozaki, H., Sano, S., Tezuka, Y., Ooyabu, K.@Morphology and taxonomy of a species of Volvox (Chlorophyceae) from Chiba Prefecture, Japan.@Jpn. J. Phycol. (Sôrui),@68,@153-156 (in Japanese with English summary).@2020@@asexual spheroid; molecular phylogeny; monoicous species; morphology; sexual spheroid; taxonomy; Volvox; Volvox ferrisii; Volvox sect; Volvox@NIES-4465@NIES4465
3561@Nakanishi, A., Iritani, K., Sakihama, Y., Watanabe, M.@Investigation of the mechanical strength of cell-plastics fabricated using unicellular green algal cells and varying weight ratios of biodegradable polybutylene succinate.@Int. J. Microbiol. Biotechnol.,@5,@159-164.@2020@@Cell-plastics; Green Alga; Chlamydomonas reinhardtii; Polybutylene Succinate (PBS); Biodegradable@NIES-2239@NIES2239
3562@Wei, K., Amano, Y., Machida, M.@Impacts of different extracellular polysaccharides on colony formation and buoyancy of Microcystis aeruginosa.@Ann. Limnol.-Int. J. Limnol.,@56,@28 (article ID).@2020@@Microcystis; buoyancy; colony formation; extracellular polysaccharides; tightly cell-bound extracellular polysaccharides@NIES-843@NIES843
3563@Tanaka, K., Kishi, M., Assaye, H., Toda, T. @Low temperatures in dark period affect biomass productivity of a cyanobacterium Arthrospira platensis.@Algal Res.,@52,@102132 (article ID).@2020@@Microalgae; Respiration; Temperature; Arthrospira platensis; Biomass productivity; Night biomass loss@NIES-39@NIES39
3564@Zhu, J., Tan, X., Hafid, H. S., Wakisaka, M. @Enhancement of biomass yield and lipid accumulation of freshwater microalga Euglena gracilis by phenolic compounds from basic structures of lignin.@Bioresour. Technol.,@321,@124441 (article ID).@2021@@Euglena gracilis; Phenolic compounds; Lignin; Carotenoids; Lipid@NIES-48@NIES48
3565@Xu, S., Liu, Y., Zhang, J., Gao, B.@Proteomic mechanisms for the combined stimulatory effects of glyphosate and antibiotic contaminants on Microcystis aeruginosa.@Chemosphere,@267,@129244 (article ID).@2021@@Hormesis; Combined pollution; Synergistic stimulation; Cyanobacterial bloom; Protein-protein interaction network@NIES-843@NIES843
3566@Maltsev, Y., Maltseva, I., Maltseva, S., Kociolek, J. P., Kulikovskiy, M.@A new species of freshwater algae Nephrochlamys yushanlensis sp. nov. (Selenastraceae, Sphaeropleales) and its lipid accumulation during nitrogen and phosphorus starvation.@J. Phycol.,@57,@606-618.@2021@@@NIES-2166@NIES2166
3567@Nagarajan, D., Lee, D.-J., Chang, J.@Heterotrophic microalgal cultivation.@In Bioreactors for microbial biomass and energy conversion, Eds. by Liao Q., Chang J., Herrmann C., Xia A., Springer, Singapore,@@pp. 117-160.@2018@@@NIES-144@NIES144@NIES-2280@NIES2280@NIES-227@NIES227
3568@González-Pleitera, M., Cirésa, S., Hurtado-Gallego, J., Leganés, F., Fernández-Piñas, F., Velázquez, D.@Chapter 20 - Ecotoxicological assessment of antibiotics in freshwater using cyanobacteria.@In Cyanobacteria: From Basic Science to Applications, Eds. by Mishra, A. K., Tiwari, D. N., Rai, A. N., Academic Press, @@pp. 339-417.@2019@@Anabaena; Antibiotics; Biomarker; Bioreporter; Cyanobacteria; Ecotoxicology; Freshwater; Oxidative stress; Risk assessment@NIES-107@NIES107@NIES-23@NIES23@NIES-843@NIES843@NIES-44@NIES44@NIES-19@NIES19
3569@Patel, A. K., Singhania, R. R., Sim, S. J., Dong, C. D.@Recent advancements in mixotrophic bioprocessing for production of high value microalgal products.@Bioresour. Technol.,@320,@124421 (article ID).@2021@@Microalgae; Mixotrophic; MCS; Organic carbon; Photosynthesis; Bioproducts@NIES-144@NIES144
3570@Conradi, F. D., Mullineaux, C. W., Wilde, A.@The role of the cyanobacterial Type IV pilus machinery in finding and maintaining a favourable environment.@Life-Basel,@10,@252 (article ID).@2020@@@NIES-2133@NIES2133
3571@Khoo, K. S., Lee, S. Y., Ooi, C. W., Fu, X., Miao, X., Ling, T. C., Show, P. L.@Recent advances in biorefinery of astaxanthin from Haematococcus pluvialis.@Bioresour. Technol.,@288,@121606 (article ID).@2019@@Astaxanthin; Haematococcus pluvialis; Cultivation; Pretreatment; Biorefinery@NIES-144@NIES144
3572@Shimura, Y., Fujisawa, T., Hirose, Y., Misawa, N., Kanesaki, Y., Nakamura, Y., Kawachi, M.@Complete sequence and structure of the genome of the harmful algal bloom-forming cyanobacterium Planktothrix agardhii NIES-204^T and detailed analysis of secondary metabolite gene clusters.@Harmful Algae,@101,@101942 (article ID).@2021@@5S ribosomal RNA gene; Aeruginosin; Horizontal gene transfer; Microcystis; Prenyltransferase; Oscillatorin@NIES-204@NIES204
3573@Jo, S.-W., Do, J.-M., Kang, N.-S., Park, J. M., Lee, J. H., Kim, H. S., Hong, J. W., Yoon, H.-S.@Isolation, identification, and biochemical characteristics of a cold-tolerant Chlorella vulgaris KNUA007 isolated from King George Island, Antarctica.@J. Mar. Sci. Eng.,@8,@935 (article ID).@2020@@Chlorella vulgaris; cold-tolerant; PUFAs (polyunsaturated fatty acids); calorific value@NIES-227@NIES227
3574@Malone, C. F. S., Genuário, D. B., Vaz, M. G. M. V., Fiore, M. F., Sant’Anna, C. L.@Monilinema gen. nov., a homocytous genus (Cyanobacteria, Leptolyngbyaceae) from saline‐alkaline lakes of Pantanal wetlands, Brazil.@J. Phycol.,@57,@473-483.@2021@@@NIES-3755@NIES3755
3575@Mojzeš, P., Gao, L., Ismagulova, T., Pilátová, J., Moudříková, Š., Gorelova, O., Solovchenko, A., Nedbal, L., Salih, A.@Guanine, a high-capacity and rapid-turnover nitrogen reserve in microalgal cells.@Proc. Natl. Acad. Sci. U. S. A.,@117,@32722-32730.@2020@@@NIES-2285@NIES2285@NIES-2587@NIES2587@NIES-2860@NIES2860
3576@Aso, M., Matsumae, R., Tanaka, A., Tanaka, R., Takabayashi, A.@Unique peripheral antennas in the photosystems of the streptophyte alga Mesostigma viride.@Plant Cell Physiol.,@62,@436–446.@2021@@Green algae; Iso-seq; Mesostigma viride; Native-PAGE; Photosystem@NIES-296@NIES296
3577@Cho, Y., Hidema, S., Omura, T., Koike, K., Koike, K., Oikawa, H., Konoki, K., Oshima, Y., Yotsu-Yamashita, M.@SxtA localizes to chloroplasts and changes to its 3′UTR may reduce toxin biosynthesis in non-toxic Alexandrium catenella (Group I).@Harmful Algae,@101,@101972 (article ID).@2021@@Saxitoxin; Biosynthesis; Dinoflagellate; Chloroplast; Localization; 3′UTR@NIES-678@NIES678
3578@Yruela, I., Moreno-Yruela, C., Olsen, C. A.@Zn²⁺-dependent histone deacetylases in plants: Structure and evolution.@Trends Plant Sci.,@26,@741-757.@2021@@histone deacetylase; epigenetics; plant evolution; ductility; intrinsic disorder; zinc-binding@NIES-4106@NIES4106@NIES-843@NIES843
3579@Jiang, R., Qin, L., Feng, S., Huang, D., Wang, Z., Zhu, S.@The joint effect of ammonium and pH on the growth of Chlorella vulgaris and ammonium removal in artificial liquid digestate.@Bioresour. Technol.,@325,@124690 (article ID).@2021@@Chlorella vulgaris; Ammonium; pH; Free ammonia; Cell components; Extracellular organic matters@NIES-227@NIES227
3580@Gu, S., Dai, X., Niu, Q., Jiang, J., Liu, Y.@Molecular, structural and biochemical characterization of a novel recombinant chlorophyllase from cyanobacterium Oscillatoria acuminata PCC 6304.@Microb. Cell. Fact.,@20,@14 (article ID).@2021@@Chlorophyllase; Oscillatoria acuminata PCC 6304; Biochemical characteristic; Substrate specifcity; Catalytic triad@NIES-2108@NIES2108
3581@Eio, E. J., Kawai, M., Niwa, C., Ito, M., Yamamoto, S., Toda, T.@Biodegradation of bisphenol A by an algal-bacterial system.@Environ. Sci. Pollut. Res.,@22,@15145–15153.@2015@@Algal-bacterial system; Bacterial consortium; Biodegradation; Bisphenol A; Inhibition; Photosynthetic oxygen@NIES-2168@NIES2168
3582@Krivina, E. S. & Temraleeva, A. D.@Identification problems and cryptic diversity of Chlorella-clade microalgae (Chlorophyta).@Microbiology,@89,@720-732.@2020@@microalgae; morphology; ecology; phylogeny; 18S−ITS1−5.8S−ITS2 fragments; polyphasic approach@NIES-2173@NIES2173@NIES-2167@NIES2167@NIES-4032@NIES4032@NIES-4034@NIES4034
3583@Zhang, X., Ohtsuki, H., Makino, W., Kato, Y., Watanabe, H., Urabe, J.@Variations in effects of ectosymbiotic microbes on the growth rates among different species and genotypes of Daphnia fed different algal diets.@Ecol. Res.,@36,@303-312.@2021@@@NIES-2364@NIES2364
3584@Pound, H. L. & Wilhelm, S. W.@Tracing the active genetic diversity of Microcystis and Microcystis phage through a temporal survey of Taihu.@PLoS One,@15,@e0244482 (article ID).@2020@@@NIES-88@NIES88@NIES-843@NIES843
3585@Tomaru, Y., Yamaguchi, H., Miki, T.@Growth rate-dependent cell death of diatoms due to viral infection and their subsequent coexistence in a semi-continuous culture system.@Microbes Environ.,@36,@ME20116 (article ID).@2021@@diatom; population dynamics; viral infection@NIES-3715@NIES3715
3586@Shiraishi, H. & Toyoda, A.@The use of a 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide–based colorimetric assay in the viability analysis of the filamentous cyanobacterium Arthrospira platensis.@Bioscience, Biotechnology, and Biochemistry,@85,@739-742.@2021@@colorimetric viability assay; cyanobacteria; heat sensitivity; spirulina@NIES-39@NIES39
3587@do Amaral, S. C., Monteiro, P. R., Neto, J. d. S. P., Serra, G. M., Gonçalves, E. C., Xavier, L. P., Santos, A. V.@Current knowledge on microviridin from cyanobacteria.@Mar. Drugs,@19,@17 (article ID).@2021@@biotechnology; cyanobacteria; ecology; microviridin; oligopeptide@NIES-298@NIES298@NIES-834@NIES834@NIES-1211@NIES1211
3588@Zha, J., Steglich, C., Scholz, I., Hess, W. R., Kirilovsky, D.@Inverse regulation of light harvesting and photoprotection is mediated by a 3' end-derived sRNA in cyanobacteria.@Plant Cell,@33,@358-380.@2021@@@NIES-73@NIES73@NIES-806@NIES806@NIES-2134@NIES2134
3589@Ko, S. R., Lee, Y. K., Srivastava, A., Park, S. H., Ahn, C. Y., Oh, H. M.@The selective inhibitory activity of a fusaricidin derivative on a bloom-Forming cyanobacterium, Microcystis sp.@J. Microbiol. Biotechnol.,@29,@59-65.@2019@@Bloom control; cyanobacteria; fusaricidin; Microcystis; Paenibacillus polymyxa@NIES-23@NIES23@NIES-94@NIES94
3590@Shimasaki, Y., Mukai, K., Takai, Y., Qiu, X., Oshima, Y.@Recent progress in the study of peroxiredoxin in the harmful algal bloom species Chattonella marina.@Antioxidants,@10,@162 (article ID).@2021@@2-Cys peroxiredoxin; antioxidant enzyme; growth potential; photosynthesis; oxidative stress@NIES-1@NIES1@NIES-3@NIES3
3591@Jong, L. W., Fujiwara, T., Hirooka, S., Miyagishima, S.@Cell size for commitment to cell division and number of successive cell divisions in cyanidialean red algae.@Protoplasma,@258,@1103–1118.@2021@@Cell cycle; Cyanidiales; Cyanidioschyzon; Cyanidium; Galdieria; Multiple fission@NIES-3377@NIES3377@NIES-2137@NIES2137
3592@Barcytė, D., Eikrem, W., Engesmo, A., Seoane, S., Wohlmann, J., Horák, A., Yurchenko, T., Eliáš, M.@Olisthodiscus represents a new class of Ochrophyta.@J. Phycol.,@57,@1094-1118.@2021@@@NIES-15@NIES15
3593@Purba, L. D. A., Othman, A., Yuzir, A., Mohamad, S. V., Iwamoto, K., Abdullah, N., Shimizu, K., Hermana, J.@Enhanced cultivation and lipid production of isolated microalgae strains using municipal wastewater.@Environ. Technol. Innov.,@27,@102444 (article ID).@2022@@Microalgae; Municipal wastewater; Nutrient removal; Lipid production@NIES-1269@NIES1269
3594@Oda, Y., Nakamura, H., Tokishita, S., Mano, H., Chang, K.-H., Sakamoto, M.@Phenotypic changes in Daphnia pulex under oxygen deficiency, resource limitation and predation risk.@Ecol. Res.,@36,@533-544.@2021@@Daphnia pulex; filter‐screen enlargement; hemoglobin synthesis; neck teeth formation; phenotypic plasticity@NIES-35@NIES35
3595@Matsuzaki, R., Suzuki, S., Yamaguchi, H., Kawachi, M., Kanesaki, Y., Yoshikawa, H., Mori, T., Nozaki, H.@The Rubisco small subunits in the green algal genus Chloromonas provide insights into evolutionary loss of the eukaryotic carbon-concentrating organelle, the pyrenoid.@BMC Ecol. Evol.,@21,@11 (article ID).@2021@@Chloromonas; Evolution; Green algae; Hydrophobicity of RBCS helices; Pyrenoid; Pyrenoid loss; Rubisco small subunit (RBCS)@NIES-4284@NIES4284@NIES-424@NIES424@NIES-425@NIES425@NIES-144@NIES144@NIES-2499@NIES2499@NIES-2242@NIES2242@NIES-2207@NIES2207@NIES-2215@NIES2215@NIES-2212@NIES2212@NIES-3753@NIES3753@NIES-2243@NIES2243
3596@Miao, H., Zhang, J., Shen, Q., Ichise, S., Asada, Y., Tian, Y., Utsumi, M., Lei, Z., Zhang, Z., Takanashi, H., Fujimoto, N., Nishimura, O., Akiba, M., Shimizu, K.@Development of rapid PCR methods for the detection and quantification of geosmin-producing Dolichospermum spp.@Water Air Soil Pollut.,@233,@394 (article ID).@2022@@Cyanobacteria; Musty odor; Geosmin; geoA gene; Whole-cell PCR; Whole-cell qPCR@NIES-824@NIES824@NIES-1658@NIES1658@NIES-1660@NIES1660
3597@Tokunaga, S., Morimoto, D., Koyama, T., Kubo, Y., Shiroi, M., Ohara, K., Tokuhiro, H., Mori, Y., Nakagawa, S., Sawayama, S.@Enhanced lutein production in Chlamydomonas reinhardtii by overexpression of the lycopene epsilon cyclase gene.@Appl. Biochem. Biotechnol.,@193,@1967–1978.@2021@@Lutein; Lycopene epsilon cyclase; Carotenoid; Chlamydomonas reinhardtii; Transgene@NIES-2237@NIES2237
3598@Grzebyk, D., Pasqualini, V., Garrido, M., Quilichini, Y., Pereto, C., Cecchi, P.@Insight into the morphology and genetic diversity of the Chaetoceros tenuissimus (Bacillariophyta) species complex.@Eur. J. Phycol.,@57,@507-525.@2022@@Cell division; Chaetoceros tenuissimus; internal transcribed spacer (ITS); morphology; phylogeny; rDNA; ultrastructure@NIES-3715@NIES3715
3599@@@@@@@@@NIES-1380@NIES1380
3600@Hoshina, R., Tsukii, Y., Harumoto, T., Suzaki, T.@Characterization of a green Stentor with symbiotic algae growing in an extremely oligotrophic environment and storing large amounts of starch granules in its cytoplasm.@Sci Rep,@11,@2865 (article ID).@2021@@@NIES-3374@NIES3374
3601@Nemoto, M.@A comparative gene analysis reveals a diatom-specific SET domain protein family.@Scientific Reports of the Faculty of Agriculture, Okayama University,@110,@1-6 (in Japanese with English summary).@2021@@Biomineralization; Diatom; Silica; Protein@NIES-487@NIES487@NIES-1349@NIES1349
3602@Nagai, T. & Kamo, M.@Comparative modeling of the effect of metal mixtures on algal growth using biotic ligand model, concentration additive, and independent action.@Jpn. J. Environ. Toxicol.,@17,@57-68 (in Japanese with English summary).@2014@@Zinc; Copper; Cadmium; Metal speciation; Ecological risk assessment@NIES-35@NIES35
3603@Yachi, S., Nagai, T., Katsumata, M.@Variation in delayed fluorescence of green algae and diatom during the exposure and a subsequent recovery period.@Jpn. J. Environ. Toxicol.,@19,@35-46 (in Japanese with English summary).@2016@@Recovery test; Physiological state of algae; 3,5-DCP@NIES-35@NIES35
3604@Kawachi, M., Nakayama, T., Kayama, M., Nomura, M., Miyashita, H., Bojo, O., Rhodes, L., Sym, S., Pienaar, R. N., Probert, I., Inouye, I., Kamikawa, R.@Rappemonads are haptophyte phytoplankton.@Curr. Biol.,@31,@2395-2403.@2021@@@NIES-3900@NIES3900
3605@Honda, D., Kawachi, M., Inouye, I.@Sulcochrysis biplastida gen. et sp. nov.: Cell structure and absolute configuration of the flagellar apparatus of an enigmatic chromophyte alga.@Phycol. Res.,@43,@1-16.@1995@@bicosoecids; chromophytes; Chrysophyceae; flagellar apparatus; heterokonts; phagotrophy; Pedinellophyceae; Pelagophyceae; Sulcochrysis; taxonomy@NIES-3893@NIES3893
3606@Honda, D. & Inouye, I.@Ultrastructure and taxonomy of a marine photosynthetic stramenopile Phaeomonas parva gen. et sp. nov. (Pinguiophyceae) with emphasis on the flagellar apparatus architecture.@Phycol. Res.,@50,@75-89.@2002@@chromophyte algae; flagellar apparatus; ; microtubular roots; Phaeomonas parva gen. et sp. nov.; phylogeny; Pinguiophyceae; stramenopiles@NIES-3895@NIES3895
3607@Honda, D. & Inouye, I.@Ultrastructure and reconstruction of the flagellar apparatus architecture in Ankylochrysis lutea (Chrysophyceae, Sarcinochrysidales).@Phycologia,@34,@215-227.@1995@@@NIES-3894@NIES3894
3608@Yamamoto, H., Fukasawa, Y., Shoji, Y., Hisamoto, S., Kikuchi, T., Takamatsu, A., Iwasaki, H.@Scattered migrating colony formation in the filamentous cyanobacterium, Pseudanabaena sp. NIES-4403.@BMC Microbiol., @21,@227 (article ID).@2021@@Cyanobacteria; Colony pattern formation; Collective behavior; Cell motility@NIES-4403@NIES4403
3609@Nishitani, G., Yamamoto, K., Nakajima, M., Shibata, Y., Sato-Okoshi, W., Yamaguchi, M.@A novel parasite strain of Amoebophrya sp. infecting the toxic dinoflagellate Alexandrium catenella (Group I) and its effect on the host bloom in Osaka Bay, Japan.@Harmful Algae,@110,@102123 (article ID).@2021@@Alexandrium catenella (Group I); Amoebophrya; Dinoflagellate; Parasite; 18S rDNA; 28S rDNA@NIES-237@NIES237@NIES-3597@NIES3597
3610@Kobayashi, A., Takayama, Y., Hirakawa, T., Okajima, K., Oide, M., Oroguchi, T., Inui, Y., Yamamoto, M., Matsunaga, S., Nakasako, M.@Common architectures in cyanobacteria Prochlorococcus cells visualized by X-ray diffraction imaging using X-ray free electron laser.@Sci Rep,@11,@3877 (article ID).@2021@@@NIES-2087@NIES2087
3611@Hondo, S., Takahashi, M., Osanai, T., Matsuda, M., Hasunuma, T., Tazuke, A., Nakahira, Y., Chohnan, S., Hasegawa, M., Asayama, M.@Genetic engineering and metabolite profiling for overproduction of polyhydroxybutyrate in cyanobacteria.@J. Biosci. Bioeng.,@120,@510-517.@2015@@Acetyl-CoA; Cyanobacteria; Metabolite analysis; Nitrogen depletion; Polyhydroxybutyrate@NIES-843@NIES843
3612@Bock, N. A., Charvet, S., Burns, J., Gyaltshen, Y., Rozenberg, A., Duhamel ,S., Kim, E.@Experimental identification and in silico prediction of bacterivory in green algae.@ISME J.,@15,@1987-2000.@2021@@@NIES-995@NIES995@NIES-296@NIES296@NIES-254@NIES254@NIES-626@NIES626
3613@Wan, J.-K., Chu, W.-L., Kok, Y.-Y., Lee, C.-S.@Influence of polystyrene microplastic and nanoplastic on copper toxicity in two freshwater microalgae.@Environ. Sci. Pollut. Res.,@28,@33649–33668.@2021@@Microplastic; Nanoplastic; Copper; Chlorella; Pseudokirchneriella subcapitata; Combined toxicity; Adsorption@NIES-35@NIES35
3614@Águila, B., Alcántara-Hernández, R. J., Montejano, G., López-Martínez, R., Falcón, L. I., Becerra-Absalón, I.@Cyanobacteria in microbialites of Alchichica Crater Lake: a polyphasic characterization.@Eur. J. Phycol.,@,@428-443.@2021@@Clone libraries; depth gradient; microscopy; NGS library; oxyphotobacteriav; stromatolites; taxonomy@NIES-4393@NIES4393@NIES-4394@NIES4394@NIES-4395@NIES4395@NIES-4396@NIES4396@NIES-4397@NIES4397@NIES-4398@NIES4398
3615@Kodani, S., Imoto, A., Mitsutani, A., Murakami, M.@Isolation and identification of the antialgal compound, harmane (1-methyl-B-carboline), produced by the algicidal bacterium, Pseudomonas sp. K44-1.@J. Appl. Phycol.,@14,@109-114.@2002@@Algicidal bacteria; Antialgal compound; Cyanobacteria; Harmane; Pseudomonas sp.; Water bloom@NIES-23@NIES23@NIES-102@NIES102@NIES-299@NIES299@NIES-446@NIES446@NIES-506@NIES506@NIES-19@NIES19@NIES-227@NIES227
3616@Watanabe, S., Matsunami, N., Okuma, I., Naythen, P. T., Fujibayashi, M., Iseri, Y., Hao, A., Kuba, T.@Blue light irradiation increases the relative abundance of the diatom Nitzschia palea in co-culture with cyanobacterium Microcystis aeruginosa.@Water Environ. Res.,@94,@e10707 (article ID).@2022@@algae; competition; light-emitting diode; water blooms@NIES-102@NIES102
3617@Ramya, M., Kayalvizhi, M., Haripriya, G., Rathinasabapathi, P.@Detection of microcystin-producing cyanobacteria in water samples using loop-mediated isothermal amplification targeting mcyB gene.@3 Biotech,@8,@378 (article ID).@2018@@Microcystin synthetase; LAMP; Microcystin; Cyanobacteria; McyB@NIES-843@NIES843
3618@Pancrace, C., Ishida, K., Briand, E., Pichi, D. G., Weiz, A. R., Guljamow, A., Scalvenzi, T., Sassoon, N., Hertweck, C., Dittmann, E., Gugger, M.@Unique biosynthetic pathway in bloom-forming Cyanobacterial genus Microcystis jointly assembles cytotoxic aeruginoguanidines and microguanidines.@ACS Chem. Biol.,@14,@67-75.@2019@@@NIES-98@NIES98@NIES-843@NIES843
3619@Lebre P. H. & Cowan D. A@Genomics of alkaliphiles.@In Alkaliphiles in Biotechnology, Eds. by Mamo G., Mattiasson B., Springer, Cham,@@pp. 135-155.@2019@@@NIES-39@NIES39
3620@Haraguchi, Y. & Shimizu, T.@Three-dimensional tissue fabrication system by co-culture of microalgae and animal cells for production of thicker and healthy cultured food.@Biotechnol. Lett.,@43,@1117–1129.@2021@@@NIES-2170@NIES2170
3621@Jones, M. R., Pinto, E., Torres, M. A., Dörr, F., Mazur-Marzec, H., Szubert, K., Tartaglione, L., Dell'Aversano, C., Miles, C. O., Beach, D. G., McCarron, P., Sivonen, K., Fewer, D. P., Jokela, J., Janssen, E. M.-L.@CyanoMetDB, a comprehensive public database of secondary metabolites from cyanobacteria.@Water Res.,@196,@117017 (article ID).@2021@@@NIES-90@NIES90
3622@Delrue, F., Cerqueira, M. R. D., Compadre, A., Alvarez, P., Fleury, G., Escoffier, C., Sassi, J. F.@Hydroponic farm wastewater treatment using an indigenous consortium.@Processes,@9,@519 (article ID).@2021@@@NIES-227@NIES227@NIES-2152@NIES2152
3623@Jangir, M. M., Chowdhury, S., Bhagavatula, V.@Differential response of photosynthetic apparatus towards alkaline pH treatment in NIES-39 and PCC 7345 strains of Arthrospira platensis.@Int. Microbiol.,@24,@219-231.@2021@@Arthrospira platensis; Thylakoid; PBsomes; Alkalinity; PSII; PSI; TEM@NIES-39@NIES39
3624@Al-Azab, A. J. S., Widyaningrum, D., Hirakawa, H., Hayashi, Y., Tanaka, S., Ohama, T.@A resin cyanoacrylate nanoparticle as an acute cell death inducer to broad spectrum of microalgae.@Algal Res.,@54,@102191 (article ID).@2021@@Cell death; Coccolith; Non-green algae; ROS; Poly (isobutylcyanoacrylate) nanoparticles@NIES-15@NIES15@NIES-1@NIES1@NIES-5@NIES5@NIES-331@NIES331@NIES-534@NIES534@NIES-590@NIES590@NIES-615@NIES615@NIES-712@NIES712@NIES-699@NIES699@NIES-900@NIES900@NIES-1017@NIES1017@NIES-1308@NIES1308@NIES-1310@NIES1310@NIES-2764@NIES2764@NIES-2778@NIES2778@NIES-7@NIES7@NIES-274@NIES274
3625@Noguchi, M., Aizawa, R., Nakazawa, D., Hakumura, Y., Furuhashi, Y., Yang, S., Ninomiya, K.,Takahashi, K., Honda, R.@Application of real treated wastewater to starch production by microalgae: Potential effect of nutrients and microbial contamination.@Biochem. Eng. J.,@169,@107973 (article ID).@2021@@Biorefinery; Chlorella vulgaris; Chlorination; Microbial contamination; Municipal wastewater; Starch (carbohydrate) production@NIES-2170@NIES2170@NIES-2151@NIES2151@NIES-2159@NIES2159
3626@Ogawa, Y., Noda, K., Kimura, S., Kitaoka, M., Wada, M.@Facile preparation of highly crystalline lamellae of (1 → 3)-B-D-glucanusing an extract of Euglena gracilis.@Int. J. Biol. Macromol.,@64,@415-419.@2014@@(1 → 3)-B-D-Glucan; In vitro synthesis; Laminaribiose phosphorylasea@NIES-48@NIES48
3627@Shibakami, M., Sohma, M., Hayashi, M.@Fabrication of doughnut-shaped particles from spheroidal paramylon granules of Euglena gracilis using acetylation reaction.@Carbohydr. Polym.,@87,@452-456.@2012@@Paramylon; B-1,3-Glucan; Paramylon doughnuts; Euglena gracilis; Acetylation@NIES-48@NIES48
3628@@@@@@@@@NIES-75@NIES75@NIES-512@NIES512@NIES-333@NIES333@NIES-805@NIES805@NIES-1642@NIES1642@NIES-1666@NIES1666@NIES-1696@NIES1696@NIES-1723@NIES1723@NIES-1677@NIES1677
3629@Kobayashi, K., Kimura, S., Togawa, E., Wada, M.@Thermal expansion behavior of hydrate paramylon in the low-temperature region.@Carbohydr. Polym.,@91,@543-548.@2013@@Paramylon; (1 → 3)-B-D-Glucan; Synchrotron X-ray powder diffraction; Solid-state ¹³C NMR; Thermal expansion; Phase transition@NIES-48@NIES48
3630@Su, D., Yang, L., Shi, X., Ma, X., Zhou, X., Hedges, S. B., Zhong, B.@Large-scale phylogenomic analyses reveal the monophyly of bryophytes and Neoproterozoic origin of land plants.@Mol. Biol. Evol.,@38,@3332–3344.@2021@@Land plants; bryophytes; phylogeny; timescale; maximum bounds@NIES-1611@NIES1611@NIES-1638@NIES1638
3631@Sugawara, K., Fujibayashi, M., Okano, K., Enda, Y., Ichinoseki, S., Taniguchi, Y., Miyata, N.@Assimilation of cyanobacteria by the freshwater bivalve Nodularia douglasiae: Insights from long-term laboratory and field feeding experiments.@J. Water Environ. Technol.,@19,@74-84.@2021@@filter-feeder; cyanobacterial bloom; dietary utilization; stable isotope; fatty acids@NIES-44@NIES44
3632@Fitriana, H.-N., Lee, S.-Y., Choi, S.-A., Lee, J.-Y., Kim, B.-L., Lee, J.-S., Oh, Y.-K.@Electric stimulation of astaxanthin biosynthesis in Haematococcus pluvialis.@Appl. Sci.,@11,@3384 (article ID).@2021@@microalgae; Haematococcus pluvialis; astaxanthin; electric treatment; stimulation; stress@NIES-144@NIES144
3633@Jeong, S.-Y. & Son, H.-J.@Effects of mycosubtilin homolog algicides from a marine bacterium, Bacillus sp. SY-1, against the harmful algal bloom species Cochlodinium polykrikoides.@J. Microbiol.,@59,@389-400.@2021@@algicide; Bacillus sp. SY-1; Cochlodinium polykrikoides; harmful algal bloom; mycosubtilin@NIES-23@NIES23@NIES-298@NIES298@NIES-227@NIES227@NIES-682@NIES682@NIES-238@NIES238@NIES-316@NIES316@NIES-446@NIES446
3634@Senavirathna, M. D. H. J., Muhetaer, G., Atapaththu, K. S. S., Fujino, T.@Egeria densa allelopathy on Microcystis aeruginosa under different light intensities and preliminary insight into inter-parameter relationships.@Water Air Soil Pollut.,@232,@135 (article ID).@2021@@Biological control; Cyanobacteria; Coexistence; Environmental management; Macrophytes; Species interactions@NIES-111@NIES111
3635@Nishimura, Y.@Diversity and evolution of protist mitochondria : introns, gene content and genome architecture.@PhD thesis, University of Tsukuba, Japan,@@75 pp. @2016@@@NIES-1333@NIES1333@NIES-1335@NIES1335
3636@@@@@@@@@NIES-47@NIES47@NIES-144@NIES144@NIES-2160@NIES2160@NIES-24@NIES24@NIES-2146@NIES2146
3637@Hee-jin, C., Baik-ho, K., Jeong-dong, K., Myung-soo, H.@Streptomyces neyagawaensis as a control for the hazardous biomass of Microcystis aeruginosa (Cyanobacteria) in eutrophic freshwaters.@Biol. Control,@33,@335-343.@2005@@Antialgal bacterium; Streptomyces neyagawaensis; Microcystis aeruginosa; Biological control; Freshwater; Cyanobacterial bloom@NIES-298@NIES298
3638@Nakai, S., Inoue, Y., Lee, B.-D., Hosomi, M.@Inhibitory effects of plant-produced phenols on algal growth.@Jpn. J. Limnol.,@63,@201-207 (in Japanese with English summary).@2002@@藍藻類; シキミ酸代謝経路; フェノール; 多価フェノール; 自動酸化; 増殖抑制@NIES-87@NIES87
3639@Ohnishi, Y., Fujii, M., Murashige, S., Yuzawa, A., Miyasaka, H., Suzuki, Y.@Decomposition precess of organic matter in sea water using phytoplankton. I. Effect of the difference in initial concentration of organic matter.@Bull. Soc. Sea Water Sci. Jpn.,@56,@17-25 (in Japanese with English summary).@2002@@Initial concentration; Decomposition preocess: Phytoplankton; Particulate organic matter; Dissolved organic matter@NIES-323@NIES323
3640@Kodani, S.@Studies on antialgal compounds of algicidal bacteria.@PhD thesis, University of Tokyo, Japan,@@87 pp. @2002@@@NIES-19@NIES19
3641@Kojima, Y., Sanae, M., Otsuka, Y., Yasue, T.@Fixation of carbon dioxide and caleification of water concrete using coccolithophorid algae in seawater.@J. Soc. Inorganic Materials, Japan,@8,@110-117 (in Japanese with English summary).@2001@@Coccolithophorid algae; Resource recycling of waste concrete; Coccolith; Calcification; Fixation of carbon dioxide@NIES-353@NIES353
3642@Gómez-Martínez, D., Bengtson, J., Nilsson, A. K., Clarke, A. K., Nilsson, R. H., Kristiansson, E., Corcoll, N.@Phenotypic and transcriptomic acclimation of the green microalga Raphidocelis subcapitata to high environmental levels of the herbicide diflufenican.@Sci. Total Environ.,@875,@162604 (article ID).@2023@@Acclimation; Microalgae; Transcriptomics; Diflufenican; Carotenoids@NIES-96@NIES96@NIES-298@NIES298
3643@Sasao, A., Matsuo, H., Tanaka, Y.@Inhibitory effect of tea (Camellia sinessis (L.) O.Kuntze var. sinensis) liquor / extract on blue-green algal growth.@Jpn. J. Limnol.,@62,@115-122 (in Japanese with English summary).@2001@@tea; M. aeruginosa; growth inhibitor; tannic acid@NIES-35@NIES35
3644@Fukami, K., Matsumoto, J., Kadota, T., Nakano, Y.@Seasonal fluctuations of water quality of deep sea water and the relationship to the growth potential of a microalga.@Deep Ocean Water Research,@1,@27-31 (in Japanese with English summary).@2000@@Deep seawater; water quality; inorganic nutrients; AGP; seasonal fluctuation; upwelling@NIES-324@NIES324
3645@Kaneko, H., Takeuchi, H., Hirayama, K.@Development of short-term algal toxicity test using oxygen evolution rate.@Jpn. J. Environ. Toxicol.,@3,@3-9 (in Japanese with English summary).@2000@@algal toxicity test; oxygen evolution; short-term bioassay; sensitivity@NIES-35@NIES35
3646@Kaya, K., Sano, T.@Chapter 18. Cyanobacterial retinoids.@In Handbook of cyanobacterial monitoring and cyanotoxin analysis, Eds. byMeriluoto, J., Spoof, L., Codd, G. A., John Wiley & Sons, Ltd.@@pp. 173-178.@2016@@@NIES-36@NIES36@NIES-46@NIES46@NIES-204@NIES204@NIES-610@NIES610@NIES-1222@NIES1222@NIES-45@NIES45@NIES-512@NIES512@NIES-44@NIES44
3647@Inoue, A., Ota, S., Matsuzaki, R., Okada, M., Kawachi, M.@Exploration of high oil-producing microalgae strains using a microfluidic chip cell sorter.@Jpn. J. Phycol. (Sôrui),@68,@143-152.@2020@@cell sorting; flow cytometry; on-chip Sort; lipid-producing algae; Nile Red@NIES-2152@NIES2152
3648@Shoguchi, E., Beedessee, G., Hisata, K., Tada, I., Narisoko, H., Satoh, N., Kawachi, M., Shinzato, C.@A new dinoflagellate genome illuminates a conserved gene cluster involved in sunscreen biosynthesis.@Genome Biol. Evol.,@13,@evaa235 (article ID).@2021@@cyanobacterial bloom; comparative genomics; ecophysiology; genomic complexity; metatranscriptome; Microcystis aeruginosa; adaptation; cyanobacteria; ecogenomics; water blooms@NIES-2907@NIES2907
3649@Cao, H., Shimura, Y., Steffen, M. M., Yang, Z., Lu, J., Joel, A., Jenkins, L., Kawachi, M., Yin, Y., Garcia-Pichel, F.@The trait repertoire enabling cyanobacteria to bloom assessed through comparative genomic complexity and metatranscriptomics.@mBio,@11,@e01155-20 (article ID).@2020@@Symbiodiniaceae; Durusdinium trenchii; WGS; MAAs; GMC oxidoreductase@NIES-81@NIES81@NIES-843@NIES843
3650@Yamamoto, K., Hamaji, T., Kawai-Toyooka, H., Matsuzaki, R., Takahashi, F., Nishimura, Y., Kawachi, M., Noguchi, H., Minakuchi, YY., Umen, J. G., Toyoda, A., Nozaki, H.@Three genomes in the algal genus Volvox reveal the fate of a haploid sex-determining region after a transition to homothallism.@Proc. Natl. Acad. Sci. U. S. A.,@118,@e2100712118 (article ID).@2021@@Volvox; evolution; heterothallism; homothallism; sex@NIES-3781@NIES3781@NIES-3782@NIES3782@NIES-3783@NIES3783@NIES-3784@NIES3784@NIES-3780@NIES3780@NIES-3786@NIES3786@NIES-3785@NIES3785
3651@Maeda, I., Kudou, S., Iwai, S.@Efficient isolation and cultivation of endosymbiotic Chlorella from Paramecium bursaria on agar plates by co-culture with yeast cells.@J. Microbiol. Methods,@186,@106254 (article ID).@2021@@@NIES-227@NIES227
3652@Watanabe, S., Mitsui, K., Nakayama, T., Inouye, I.@Phylogenetic relationships and taxonomy of sarcinoid green algae: Chlorosarcinopsis, Desmotetra, Sarcinochlamys gen. nov., Neochlorosarcina, and Chlorosphaeeopsis (Chlorophyceae, Chlorophyta).@J. Phycol.,@42,@679-695.@2006@@Chlorophyceae; Chlorophyta; Chlorosarcinopsis; Chlorosphaeropsis; Desmotetra; 18S rDNA; green algae; Neochlorosarcina; phylogeny; Sarcinochlamys@NIES-153@NIES153
3653@Makita, Y., et al.@Identification of a dual orange/far-red and blue light photoreceptor from an oceanic green picoplankton.@Nat. Commun.,@12,@3593 (article ID).@2021@@@NIES-2893@NIES2893
3654@Hoef-Emden, K.@Revision of the genus Chroomonas HANSGIRG: The benefits of DNA-containing specimens.@Protist,@169,@662-681.@2018@@Chroomonas; novel species; phylogeny; ancient DNA; revision; Cryptophyceae@NIES-708@NIES708@NIES-712@NIES712@NIES-1004@NIES1004
3655@Watanabe, H., Nakajima, F., Kasuga, I., Furumai, H.@Application of whole sediment toxicity identification evaluation proceduresto road dust using a benthic ostracod Heterocypris incongruens.@Ecotox. Environ. Safe.,@89,@245-251.@2013@@Road dust; Ostracod; Toxicity identification evaluation; Adsorbent@NIES-94@NIES94
3656@Phan, C.-S., Matsuda, K., Balloo, N., Fujita, K., Wakimoto, T., Okino, T.@Argicyclamides A–C Unveil Enzymatic Basis for Guanidine Bis-prenylation@J. Am. Chem. Soc.,@143,@10083–10087.@2021@@@NIES-88@NIES88
3657@Kishi, M., Onouchi, H., Tanaka, K., Yoshida, A., Toda, T.@Simultaneous microalgal culture and biogas upgrading using anaerobic digestion effluent.@Bull. Plankton Eco-Eng. Res.,@1,@58-73 (in Japanese with English summary).@2021@@@NIES-2173@NIES2173
3658@Arii, S., Yamashita, R., Tsuji, K., Tomita, K., Hasegawa, M., Bober, B., Harada, K.@Differences in susceptibility of cyanobacteria species to lytic volatile organic compounds and influence on seasonal succession.@Chemosphere,@284,@131378 (article ID).@2021@@Susceptibility; Volatile organic compounds (VOCs); β-Cyclocitral; Minimal inhibitory concentration (MIC); Seasonal succession@NIES-102@NIES102@NIES-112@NIES112@NIES-298@NIES298@NIES-843@NIES843@NIES-1642@NIES1642@NIES-1652@NIES1652@NIES-808@NIES808@NIES-1696@NIES1696@NIES-1728@NIES1728@NIES-1677@NIES1677
3659@Pratte, B. S. & Thiel, T.@Comparative genomic insights into culturable symbiotic cyanobacteria from the water fern Azolla.@Microb. Genomics,@7,@000595 (article ID).@2021@@@NIES-25@NIES25@NIES-3275@NIES3275
3660@Toyoshima, H., Miyata, A., Yoshida, R., Ishige, T., Takaichi, S., Kawasaki, S.@Distribution of the water-soluble astaxanthin binding carotenoprotein (AstaP) in Scenedesmaceae.@Mar. Drugs,@19,@349 (article ID).@2021@@astaxanthin; Scenedesmus; Coelastrella; carotenoprotein; astaxanthin-binding protein@NIES-2238@NIES2238@NIES-2540@NIES2540
3661@Carbone, D. A., Pellone, P., Lubritto, C., Ciniglia, C.@Evaluation of microalgae antiviral activity and their bioactive compounds.@Antibiotics-Basel,@10,@746 (article ID).@2021@@microalgae; virus; antiviral compounds; SARS-CoV-2; microalgae antiviral activity; coronavirus disease@NIES-204@NIES204
3662@Dreher, T. W., Davis, E. W., Mueller, R. S., Otten, T. G.@Comparative genomics of the ADA clade within the Nostocales.@Harmful Algae,@104,@102037 (article ID).@2021@@Dolichospermum; Aphanizomenon; Anabaena; Mobilome; Genome synteny; Cyanotoxin genes@NIES-80@NIES80@NIES-81@NIES81@NIES-806@NIES806
3663@Wada, S. & Natori, K.@Practice of class to measure the environmental load of antibacterial drugs by student planning experiment. -Antibiotics suppress germination and growth of plants-@JSSE Research Report,@35,@55-60 (in Japanese).@2021@@@NIES-35@NIES35
3664@Anam, K., Rahman, D. Y., Hidhayati, N., Rachmayati, R., Susilaningsih, D., Agustini, N. W. S., Praharyawan, S., Susanti, H., Apriastini, M.@Lipid accumulation on optimized condition through biomass production in green algae.@IOP Conf. Ser.: Earth Environ. Sci.,@762,@012075 (article ID).@2021@@@NIES-2152@NIES2152@NIES-2169@NIES2169@NIES-2170@NIES2170
3665@Chen, M., Rubin, G. M., Jiang, G., Raad, Z., Ding, Y.@Biosynthesis and heterologous production of mycosporine-like amino acid palythines.@J. Org. Chem.,@86,@11160–11168.@2021@@@NIES-25@NIES25
3666@Rubiyatno, R., Mori, K., Inoue, D., Kim, S., Yu, J., Lee, T., Ike, M., Toyama, T.@Isolation and characterization of Euglena gracilis-associated bacteria, Enterobacter sp. CA3 and Emticicia sp. CN5, capable of promoting the growth and paramylon production of E. gracilis under mixotrophic cultivation.@Microorganisms,@9,@1496 (article ID).@2021@@Euglena gracilis; paramylon; associated bacteria; growth promotion; paramylon production promotion; co-culture; Emticicia sp.; Enterobacter sp.@NIES-48@NIES48
3667@Jaiswal, T. P., Chakraborty, S., Singh, P., Mishra, A. K., Singh, S. S.@Description of hot spring dwelling Mastigocladus ambikapurensis sp. nov., using a polyphasic approach.@Plant Syst. Evol.,@307,@33 (article ID).@2021@@16S rRNA gene; Cyanobacteria; ITS; Mastigocladus; Phylogeny@NIES-592@NIES592@NIES-3754@NIES3754
3668@Jung, S.-H., McHardy, C., Rauh, C., Jahn, A., Luzi, G., Delgado, A., Buchholz, R., Lindenberger, C.@A new approach for calculating microalgae culture growth based on an inhibitory efect of the surrounding biomass.@Bioprocess. Biosyst. Eng.,@44,@1671-1684.@2021@@Algae cultivation; Numerical methods; Growth kinetics; Inhibitory efects@NIES-39@NIES39
3669@Rogers, J. E., Devereux, R., James, J. B., George, S. E., Forshay, K. J.@Seasonal distribution of cyanobacteria in three urban eutrophic lakes results from an epidemic-like response to environmental conditions.@Curr. Microbiol.,@78,@2298-2316.@2021@@@NIES-843@NIES843
3670@Xu, M., Harmon, J., Yuan, D., Yan, S., Lei, C., Hiramatsu, K., Zhou, Y., Loo, M. H., Hasunuma, T., Isozaki, A., Goda, K.@Morphological indicator for directed evolution of Euglena gracilis with a high heavy metal removal efficiency.@Environ. Sci. Technol.,@55,@7880-7889.@2021@@microalgae; wastewater treatment; directed evolution; machine learning; single-cell analysis; imaging flow cytometry@NIES-48@NIES48
3671@Agarkova, I. V., Lane, L. C., Dunigan, D. D., Quispe, C. F., Duncan, G. A., Milrot, E., Minsky, A., Esmael, A., Ghosh, J. F., Van Etten, J. L.@Identification of a chlorovirus PBCV-1 protein involved in degrading the host cell wall during virus infection.@Viruses-Basel,@13,@782 (article ID).@2021@@Chlorella; Phycodnaviridae; chlorovirus; PBCV-1; algal lytic activity; cell wall degrading activity; alginate-like lyase@NIES-2540@NIES2540@NIES-2541@NIES2541
3672@Sekine, M.@Coupling process of simultaneous desulfurization–nitrification and microalgal cultivation for biogas and effluent from anaerobic digestion.@PhD thesis, Soka University, Japan,@@128 pp. @2021@@@NIES-2173@NIES2173
3673@Mizukami-Murata, S., Suzuki, Y., Sakurai, K., Yamashita, H.@Freshwater alga Raphidocelis subcapitata undergoes metabolomic changes in response to electrostatic adhesion by micrometer-sized nylon 6 particles.@Environ. Sci. Pollut. Res.,@28,@66901–66913.@2021@@Powdered nylon 6; Raphidocelis subcapitata; Growth inhibition; Electrostatic adhesion; Metabolomic analysis; Amino acid catabolic pathway; γ-glutamyl cycle@NIES-35@NIES35
3674@Shibata, A., Takahashi, F., Imamura, N., Kasahara, M.@Characteristics of maltose transport system in the endosymbiont Chlorella variabilis of Paramecium bursaria.@Phycol. Res.,@69,@219-225.@2021@@ciliate; green algae; symbiosis@NIES-227@NIES227
3675@Abd Karim, F. F., Mohamad, S. E., Shaza, E. M., Iwamoto, K.@Initial study on the growth of Haematococus pluvialis for astaxanthin production.@IOP Conf. Ser.: Earth Environ. Sci.,@765,@012064 (article ID).@2021@@@NIES-144@NIES144
3676@Nagao, R., Yokono, M., Kato, K., Ueno, Y., Shen, J.-R., Akimoto, S.@High‑light modification of excitation‑energy‑relaxation processes in the green fagellate Euglena gracilis.@Photosynth. Res.,@149,@303–311.@2021@@Euglena gracilis; Time-resolved fuorescence; Photoprotection; Photosynthesis@NIES-48@NIES48
3677@Alvarenga, D. O., Andreote, A. P. D., Branco, L. H. Z., Delbaje, E., Cruz, R. B., Varani, A. D., Fiore, M. F.@Amazonocrinis nigriterrae gen. nov., sp. nov., Atlanticothrix silvestris gen. nov., sp. nov. and Dendronalium phyllosphericum gen. nov., sp. nov., nostocacean cyanobacteria from Brazilian environments.@Int. J. Syst. Evol. Microbiol.,@71,@004811 (article ID).@2021@@Nostocaceae; phyllosphere; anthropogenic dark earth; nitrogen fixation; phylogenomics@NIES-4103@NIES4103
3678@Gao, J.-J., Zhang, L.. Peng, R.-H., Wang, B., Feng, H.-J., Li, Z.-J., Yao, Q.-H.@Recombinant expression of Thermosynechococcus elongatus BP-1 glutathione S-transferase in Arabidopsis thaliana: an efficient tool for phytoremediation of thiocyanate.@Biotechnol. Biotechnol. Equip.,@34,@494-505.@2021@@Thiocyanate; Thermosynechococcus elongatus BP-1; Arabidopsis thaliana; transgenic; enhance phytoremediation; glutathione S-transferase; degradation@NIES-2134@NIES2134@NIES-2098@NIES2098@NIES-4103@NIES4103
3679@Gu, Y., Tobino, T., Nakajima, F.@Determining the relative importance of dietborne and waterborne toxicity of 4-tert-butylphenol and 4-tert-octylphenol to the benthic crustacean, Heterocypris incongruens.@Environ. Sci. Technol.,@55,@7939–7948.@2021@@alkylphenol; toxicity test; dietborne toxicity; exposure route; Heterocypris incongruens; ISO 14371@NIES-797@NIES797@NIES-2170@NIES2170@NIES-94@NIES94
3680@Aoki, J., Sasaki, D., Asayama, M.@Development of a method for phycocyanin recovery from filamentous cyanobacteria and evaluation of its stability and antioxidant capacity.@BMC Biotechnol.,@21,@40 (article ID).@2021@@Antioxidant; Arthrospira platensis; Cell lysis; Limnothrix sp., Phycocyanin; Pseudanabaena sp.@NIES-39@NIES39
3681@Schmermund, L., Bierbaumer, S., Schein, V. K., Winkler, C. K., Kara, S., Kroutil, W.@Extending the library of light-dependent protochlorophyllide oxidoreductases and their solvent tolerance, stability in light and cofactor lexibility.@ChemCatChem,@12,@4044-4051.@2020@@@NIES-3755@NIES3755
3682@Galica, T., Borbone, N., Mareš, J., Kust, A., Caso, A., Esposito, G., Saurav, K., Hájek, J., Řeháková, K., Urajová, P., Costantino, V., Hrouzek, P.@Cyanochelins, an overlooked class of widely distributed cyanobacterial siderophores, discovered by silent gene cluster awakening.@Appl. Environ. Microbiol.,@87,@e0312820 (article ID).@2021@@@NIES-3755@NIES3755
3683@Cho, S. J., Sung, Y. J., Lee, J. S., Yu, B. S., Sim, S. J.@Robust cyst germination induction in Haematococcus pluvialis to enhance astaxanthin productivity in a semi-continuous outdoor culture system using power plant flue gas.@Bioresour. Technol.,@338,@125533 (article ID).@2021@@Haematococcus pluvialis; Astaxanthin; Cyst germination; Outdoor semi-continuous culture; Power plant flue gas@NIES-144@NIES144
3684@Miyauchi, H., Harada, K., Suzuki, Y., Okada, K., Aoki, M., Umemura, T., Fujiwara,S., Tsuzuki, M.@Development of an algal cell-attached solid surface culture system for simultaneous wastewater treatment and biomass production.@Algal Res.,@58,@102394 (article ID).@2021@@Microalgae; Attached cell culture; Wastewater; Phosphorus uptake; Chlorella@NIES-2160@NIES2160
3685@Harada, N., Hirose, Y., Chihong, S., Kurita, H., Sato, M., Onodera, J., Murata, K., Itoh, F.@A novel characteristic of a phytoplankton as a potential source of straight-chain alkanes.@Sci Rep,@11,@14190 (article ID).@2021@@@NIES-1001@NIES1001@NIES-2779@NIES2779@NIES-2780@NIES2780@NIES-3367@NIES3367
3686@Takahashi, K., Kawai-Toyooka, H., Ootsuki, R., Hamaji, T., Tsuchikane, Y., Sekimoto, H., Higashiyama, T., Nozaki, H.@Three sex phenotypes in a haploid algal species give insights into the evolutionary transition to a self-compatible mating system.@Evolution,@75,@2984-2993.@2021@@Haploid species; inbreeding; life-history evolution; mating systems; reproductive isolation; sex@NIES-4068@NIES4068@NIES-456@NIES456@NIES-460@NIES460@NIES-541@NIES541@NIES-544@NIES544@NIES-731@NIES731@NIES-732@NIES732@NIES-872@NIES872@NIES-891@NIES891@NIES-892@NIES892@NIES-1362@NIES1362@NIES-2569@NIES2569@NIES-3382@NIES3382@NIES-3383@NIES3383@NIES-3782@NIES3782@NIES-4066@NIES4066@NIES-4480@NIES4480@NIES-4482@NIES4482@NIES-4483@NIES4483@NIES-4484@NIES4484@NIES-3780@NIES3780@NIES-1363@NIES1363@NIES-4481@NIES4481@NIES-4479@NIES4479
3687@Sakata, T., Yoshikawa, T., Nishitarumizu, S.@Purification of an algicidal substance produced by marine Pseudomonas sp. C55a-2.@Mem, Fac. Fish. Kagoshima Univ.,@59,@17-25.@2010@@algicidal substance; Chaetoceros; Chattonella; Heterosigma; Pseudomona@NIES-6@NIES6@NIES-121@NIES121
3688@Kaneko, H.@Toxicity of municipal waste incinerator fly ash using algal growth.@J. Jpn.n Soc. Waste Management Experts,@b>8,@321-326 (in Japanese with English summary).@1997@@MWI fly ash; leaching test; ecotoxicity; algal assay; heavy metal@NIES-35@NIES35
3689@Jiang, M. & Nakano, S.@Application of image analysis for algal biomass quantification: a low‑cost and non‑destructive method based on HSI color space.@J. Appl. Phycol.,@33,@3709–3717.@2021@@Algal biomass; Quantitative methods; Image analysis; HSI color space; Lambert–Beer law@NIES-333@NIES333@NIES-2172@NIES2172
3690@Onyshchenko, A., Roberts, W. R., Ruck, E. C., Lewis, J. A., Alverson, A. J.@The genome of a nonphotosynthetic diatom provides insights into the metabolic shift to heterotrophy and constraints on the loss of photosynthesis.@New Phytol.,@232,@1750-1764.@2021@@apochloritic; B-ketoadipate pathway; Entner-Doudoroff Pathway; glycolysis; lignin; mixotrophy; oxidative pentose phosphate pathway; photosynthesis@NIES-3581@NIES3581
3691@Rosas-Santiago, P., Zechinelli Pérez, K., Gómez Méndez, M. F., Vera López Portillo, F., Ruiz Salas, J. L., Cordoba Martínez, E., Acosta Maspon, A., Pantoja, O.@A differential subcellular localization of two copper transporters from the COPT family suggests distinct roles in copper homeostasis in Physcomitrium patens.@Plant Physiol. Biochem.,@167,@459-469.@2021@@Copper transport; Copper uptake; COPT; Physcomitrium patens@NIES-2285@NIES2285
3692@Alghanimy, D. B. G. & Alghanmi, H. A.@Effect of different magnesium oxide nanoparticles concentration on the growth of the Lyngbya majuscula.@Eco. Env. & Cons.,@27,@690-694.@2021@@Nanoparticles; MgO NPs; Lyngbya majuscula; Chlorophyll a; Carotenoids@NIES-46@NIES46
3693@Kato, S. & Nam, H. G.@The cell division cycle of Euglena gracilis indicates that the level of circadian plasticity to the external light regime changes in prolonged-stationary cultures.@Plants-Basel,@10,@1475 (article ID).@2021@@aging; cell division; circadian plasticity; Euglena gracilis; microalgae; T-cycle@NIES-48@NIES48
3694@Tsuchiya, M. & Nomaki, H.@Rapid response of the giant protist xenophyophores (Foraminifera, Rhizaria) to organic matter supply at abyssal depths revealed by an in situ dual stable isotope labeling experiment.@Deep-Sea Research,@176,@103608 (article ID).@2021@@Xenophyophore; In situ isotope labeling experiment; Abyssal plain; Feeding habit@NIES-1383@NIES1383
3695@Li, B., Li, J., An, G., Zhao, C., Wang, C.@Long-term and strong suppression against Microcystis growth and microcystin-release by luteolin continuous-release microsphere: Optimal construction, characterization, effects and proteomic mechanisms.@Water Res.,@202,@117448 (article ID).@2021@@Continuous-release microsphere; Long-term algicidal effect; Luteolin; Microcystin; Microcystis-dominated cyanobacterial bloom; Proteomic mechanism@NIES-102@NIES102@NIES-298@NIES298
3696@Shimakawa, G., Shoguchi, E., Burlacot, A., Ifuku, K., Che, Y., Kumazawa, M., Tanaka, K., Nakanishi, S.@Coral symbionts evolved a functional polycistronic flavodiiron gene.@Photosynth. Res.,@151,@113–124.@2021@@Flavodiiron proteins; Polycistronic gene; Gene fusion; Coral symbionts; Evolution@NIES-4077@NIES4077
3697@Monteiro, P. R., do Amaral, S. C., Siqueira, A. S., Xavier, L. P., Santos, A. V.@Anabaenopeptins: What We Know So Far.@Toxins,@13,@522 (article ID).@2021@@cyanobacteria; peptide; NRPS; anabaenopeptin@NIES-204@NIES204@NIES-595@NIES595@NIES-81@NIES81
3698@Godo, T., Saki, Y., Nojiri, Y., Tsujitani, M., Sugahara, S., Hayashi, S., Kamiya, H., Ohtani, S., Seike, Y.@Geosmin-producing Species of Coelosphaerium (Synechococcales, Cyanobacteria) in Lake Shinji, Japan.@Sci Rep.,@7,@41928 (article ID).@2017@@@NIES-4473@NIES4473
3699@Hayashi, S., Ohtani, S., Godo, T., Nojiri, Y., Saki, Y., Esumi, T., Kamiya, H.@Identification of geosmin biosynthetic gene in geosmin-producing colonial cyanobacteria Coelosphaerium sp. and isolation of geosmin non-producing Coelosphaerium sp. from brackish Lake Shinji in Japan.@Harmful Algae,@84,@19-26.@2019@@Geosmin; Geosmin synthase gene; Coelosphaerium sp.Geosmin-producing and non-producing strains; Lake Shinji@NIES-4473@NIES4473@NIES-4474@NIES4474@NIES-4475@NIES4475
3700@Shimizu, T., Oda, T., Ito, H., Imai, I.@Isolation and characterization of algicidal bacteria and its effect on a musty odor-producing cyanobacterium Dolichospermum crassum in a reservoir.@Water Sci. Technol.-Water Supply,@17,@792-798.@2017@@algicidal bacteria; Anabaena crassa; Dolichospermum crassum; geosmin; musty odor; Rheinheimera spp@NIES-4407@NIES4407
3701@Lindsey, C. R., Rosenzweing, F., Herron, M. D.@Phylotranscriptomics points to multiple independent origins of multicellularity and cellular differentiation in the volvocine algae.@BMC Biol.,@19,@182 (article ID).@2021@@Phylotranscriptomics; Volvocine algae; Green algae; Phylogeny; Multicellularity@NIES-418@NIES418@NIES-456@NIES456@NIES-458@NIES458@NIES-460@NIES460@NIES-564@NIES564@NIES-566@NIES566@NIES-568@NIES568@NIES-572@NIES572@NIES-653@NIES653@NIES-654@NIES654@NIES-717@NIES717@NIES-719@NIES719@NIES-720@NIES720@NIES-722@NIES722@NIES-725@NIES725@NIES-728@NIES728@NIES-736@NIES736@NIES-737@NIES737@NIES-851@NIES851@NIES-856@NIES856@NIES-863@NIES863@NIES-878@NIES878@NIES-890@NIES890@NIES-1362@NIES1362@NIES-1363@NIES1363@NIES-2863@NIES2863@NIES-3383@NIES3383@NIES-4126@NIES4126@NIES-882@NIES882@NIES-541@NIES541@NIES-730@NIES730@NIES-732@NIES732@NIES-868@NIES868@NIES-867@NIES867@NIES-544@NIES544@NIES-4127@NIES4127@NIES-4128@NIES4128@NIES-893@NIES893@NIES-895@NIES895@NIES-582@NIES582@NIES-2569@NIES2569@NIES-543@NIES543
3702@Russell, S., Jackson, C., Reyes-Prieto, A.@High sequence divergence but limited architectural rearrangements in organelle genomes of Cyanophora (Glaucophyta) species.@J. Eukaryot. Microbiol.,@68,@e12831 (article ID).@2021@@Archaeplastida; genomic distance; glauco-phytes; mitochondria; organelle genomics; plastid; substitution rates@NIES-764@NIES764@NIES-763@NIES763
3703@Price, D. C., Steiner, J. M., Yoon, H. S., Bhattacharya, D., Löffelhardt, W.@Glaucophyta@In Handbook of the protists, 2nd ed. , Eds. by Archibald, J. M., Simpson, A. G. B., Slamovits, C. H., Springer,@@pp. 1-65.@2017@@Archaeplastida; Cyanophora paradoxa; Muroplasts; Single primary endosymbiotic event; Phylogenomics; Carbon-concentrating mechanism; Eukaryotic peptidoglycan; Phycobilisomes@NIES-1369@NIES1369@NIES-1961@NIES1961@NIES-3645@NIES3645@NIES-764@NIES764@NIES-966@NIES966@NIES-763@NIES763@NIES-2141@NIES2141@NIES-547@NIES547
3704@Yu, B. S., Sung, Y. J., Choi, H. I., Sirohi, R., Sim, S. J.@Concurrent enhancement of CO2 fixation and productivities of omega-3 fatty acids and astaxanthin in Haematococcus pluvialis culture via calcium-mediated homeoviscous adaptation and biomineralization.@Bioresour. Technol.,@340,@125720 (article ID).@2021@@Haematococcus pluvialis; Biomineralization; Omega-3 fatty acids; Astaxanthin@NIES-144@NIES144
3705@Wang, K. & Mou, X.@Coordinated diel gene expression of cyanobacteria and their microbiome.@Microorganisms,@9,@1670 (article ID).@2021@@Microcystis; cyanobacterial blooms; diel transcription; microbiome@NIES-843@NIES843
3706@Ray, A., Nayak, M., Ghosh, A.@A review on co-culturing of microalgae: A greener strategy towards sustainable biofuels production.@Sci. Total Environ.,@802,@149765 (article ID).@2022@@Microalgae-fungi; Microalgae-yeast; Microalgae-bacteria; Co-cultivation; Biomass; Lipid@NIES-227@NIES227
3707@Haraguchi, Y. & Shimizu, T.@Microalgal culture in animal cell waste medium for sustainable 'cultured food' production.@Arch. Microbiol.,@203,@5525–5532.@2021@@Algal technology; Animal cells; Cultured food; Metabolism; Sustainability@NIES-2170@NIES2170
3708@Bhattad, T., Koradiya, A., Prakash, G.@Prebiotic activity of paramylon isolated from heterotrophically grown Euglena gracilis.@Heliyon,@7,@e07884 (article ID).@2021@@@NIES-48@NIES48
3709@Nomaki, H., Rastelli, E., ogawa, N. O., Matsui, Y., Tsuchiya, M., Manea, E., Corinaldesi, C., Hirai, M., Ohkouchi, N., Danovaro, R., Nunoura, T., Amaro, T.@In situ experimental evidences for responses of abyssal benthic biota to shifts in phytodetritus compositions linked to global climate change.@Glob. Change Biol.,@27,@6139-6155.@2021@@abyssal plain; benthic ecosystems; climate change; ecosystem functioning; isotope tracer; primary producers@NIES-377@NIES377@NIES-986@NIES986
3710@Rahman, M. M., Rahaman, M. S., Islam, M. R., Hossain, M. E., Mithi, FM., Ahmed, M., Saldías, M., Akkol, E. K., Sobarzo-Sánchez, E.@Multifunctional therapeutic potential of phytocomplexes and natural extracts for antimicrobial properties.@Antibiotics-Basel,@10,@1076 (article ID).@2021@@natural products; phytocomplexes; antimicrobial activity; alkaloids; tannins; terpenoids@NIES-204@NIES204
3711@Reyes-Prieto, A., Russell, S., Figueroa-Martinez, F., Jackson, C.@Chapter Four - Comparative Plastid Genomics of Glaucophytes.@In Plastid Genome Evolution - Advances in Botanical Research, Eds. by Chaw, S.-M., Jansen, R. K., Academic press@85,@pp. 95-127.@2018@@Glaucophyta; Cyanophora; Glaucocystis; Archaeplastida; Plastid; Plastid genome; HGT@NIES-764@NIES764@NIES-763@NIES763
3712@Hirose, Y., Ohtsubo, Y., Misawa, N., Yonekawa, C., Nagao, N., Shimura, Y., Fujisawa, T., Kanesaki, Y., Katoh, H., Katayama, M., Yamaguchi, H., Yoshikawa, H., Ikeuchi, M., Eki, T., Nakamura, Y., Kawachi, M.@Genome sequencing of the NIES Cyanobacteria collection with a focus on the heterocyst-forming clade.@DNA Res.,@28,@dsab024 (article ID).@2021@@Cyanobacteria; genome; heterocyst; culture collection; taxonomy@NIES-4102@NIES4102@NIES-23@NIES23@NIES-2130@NIES2130@NIES-3585@NIES3585@NIES-4070@NIES4070@NIES-932@NIES932@NIES-4073@NIES4073@NIES-3757@NIES3757@NIES-37@NIES37@NIES-4075@NIES4075@NIES-25@NIES25@NIES-2111@NIES2111@NIES-73@NIES73@NIES-2107@NIES2107@NIES-3275@NIES3275@NIES-2135@NIES2135@NIES-4106@NIES4106@NIES-806@NIES806@NIES-4074@NIES4074@NIES-4101@NIES4101@NIES-3974@NIES3974@NIES-267@NIES267@NIES-2100@NIES2100@NIES-2098@NIES2098@NIES-22@NIES22@NIES-50@NIES50@NIES-21@NIES21@NIES-19@NIES19@NIES-2109@NIES2109@NIES-4103@NIES4103
3713@Mizobuchi, A., Tsuchioka, H., Handa, S.@Cryptophyte Urgorri complanatus causes red tides in brackish waters in Japan.@Jpn. J. Phycol. (Sôrui),@69,@10-13 (in Japanese with English summary).@2021@@bloom; Cryptophyta; plankton; pyrenoids; tidal area@NIES-4402@NIES4402
3714@Tuji, A., Suzuki, S., Yamagishi, T., Yamaguchi, H.@Alternative diatom strains for growth inhibition tests (OECD Test Guideline 201).@Bull. Natl. Mus. Nat. Sci., Ser. B,@47,@183–192.@2021@@Fistulifera; Mayamaea permitis; Mayamaea pseudoterrestris sp., nov.; Mayamaea terrestris; Navicula pelliculosa; UTEX 664@NIES-4281@NIES4281@NIES-4280@NIES4280
3715@Yonamine, Y., Asai, T., Suzuki, Y., Ito, T., Ozeki, Y., Hoshino, Y.@Probing the biogenesis of polysaccharide granules in algal cells at sub-organellar resolution via raman microscopy with stable isotope labeling.@Anal. Chem.,@93,@16796–16803.@2021@@@NIES-48@NIES48
3716@Hongo, Y., Kimura, K., Takaki, Y., Yoshida, Y., Baba, S., Kobayashi, G., Nagasaki, K., Hano, T., Tomaru, Y.@The genome of the diatom Chaetoceros tenuissimus carries an ancient integrated fragment of an extant virus.@Sci Rep,@11,@22877 (article ID).@2021@@@NIES-3715@NIES3715
3717@Suruzzaman, M., Cao, T., Lu, J., Wang, Y., Su, M., Yang, M.@Evaluation of the MIB-producing potential based on real-time qPCR in drinking water reservoirs.@Environ. Res.,@204,@112308 (article ID).@2022@@2-Methylisoborneol (MIB); Taste & odor; Real time qPCR; MIB-Synthesis (mic) gene; Drinking water@NIES-4062@NIES4062@NIES-512@NIES512@NIES-4238@NIES4238@NIES-4237@NIES4237@NIES-4063@NIES4063
3718@Yamashita, S., Yamamoto, K., Matsuzaki, R., Shigekatsu, S., Yamaguchi, H., Hirooka, S., Minakuchi, Y., Miyagishima, S., Masanobu, M., Atsushi, T., Hisayoshi, N.@Genome sequencing of the multicellular alga Astrephomene provides insights into convergent evolution of germ-soma differentiation.@Sci Rep,@11,@22231 (article ID).@2021@@@NIES-4017@NIES4017
3719@Yamano, T., Toyokawa, C., Shimamura, D., Matsuoka, T., Fukuzawa, H.@CO₂-dependent migration and relocation of LCIB, a pyrenoid-peripheral protein in Chlamydomonas reinhardtii.@Plant Physiol.,@188,@1081–1094.@2021@@@NIES-2235@NIES2235
3720@Tanno, A., Tokutsu, R., Arakaki, Y., Ueki, N., Minagawa, J., Yoshimura, K., Hisabori, T., Nozaki, H., Wakabayashi, K.@The four-celled Volvocales green alga Tetrabaena socialis exhibits weak photobehavior and high-photoprotection ability.@PLoS One,@16,@e0259138 (article ID).@2021@@@NIES-571@NIES571
3721@Miyashita, S., Ogura, T., Fujii, S., Inagaki, K., Takahashi, Y., Minoda, A.@Effect of lyophilization on the acid resistance of a unicellular red alga Galdieria sulphuraria during platinum recovery.@J. Hazard. Mater. Advances,@3,@100015 (article ID).@2021@@Biosorption; Metal recovery; Algae; XAFS; ICP-MS; Platinum@NIES-3638@NIES3638
3722@Shen, O., Wang, Q., Miao, H., Shimada, M., Utsumi, M., Lei, Z., Zhang, Z., Nishimura, O., Asada, Y., Fujimoto, N., Takanashi, H., Akiba, M., Shimizu, K.@Temperature affects growth, geosmin/2-methylisoborneol production, and gene expression in two cyanobacterial species.@Environ. Sci. Pollut. Res.,@29,@12017–12026.@2021@@Cyanobacteria; Temperature; Cell growth; Geosmin; 2-MIB; Gene expression@NIES-512@NIES512@NIES-824@NIES824
3723@Kawai, J., Kanazawa, M., Suzuki, R., Kikuchi, N., Hayakawa, Y., Sekimoto, H.@Highly efficient transformation of the model zygnematophycean alga Closterium peracerosum-strigosum-littorale complex by square-pulse electroporation.@New Phytol.,@233,@569-578.@2022@@Closterium; electroporation; evolution; transformation; Zygnematophyceae@NIES-68@NIES68@NIES-67@NIES67
3724@Miyashita, S., Ogura, T., Kondo, T., Fujii, S., Inagaki, K., Takahashi, Y., Minoda, A.@Recovery of Au from dilute aqua regia solutions via adsorption on the lyophilized cells of a unicellular red alga Galdieria sulphuraria: A mechanism study.@J. Hazard. Mater.,@425,@127982 (article ID).@2022@@Biosorption; Precious metal; Acidic effluent; Remediation; Wastewater treatment@NIES-3638@NIES3638
3725@Irisarri, I., Darienko, T., Pröschold, T., Fürst-Jansen, J. M. R., Jamy, M., de Vries, J.@Unexpected cryptic species among streptophyte algae most distant to land plants.@Proc. R. Soc. B-Biol. Sci.,@288,@20212168 (article ID).@2021@@plant terrestrialization; plant evolution; streptophytes; green algae; phylogenomics; phycology@NIES-160@NIES160
3726@Tan, X., Zhu, J., Wakisaka, M.@Effect of phytochemical vanillic acid on the growth and lipid accumulation of freshwater microalga Euglena gracilis.@World J. Microbiol. Biotechnol.,@37,@217 (article ID).@2021@@Euglena gracilis; Vanillic acid; Growth; Photosynthetic pigments; Biochemical composition@NIES-48@NIES48
3727@Maltsev, Y., Maltseva, K., Kulikovskiy, M., Maltseva, S.@Influence of light conditions on microalgae growth and content of lipids, carotenoids, and fatty acid composition.@Biology-Basel,@10,@1060 (article ID).@2021@@carotenoids; fatty acids; light; lipids; microalgae; photoperiod@NIES-2169@NIES2169@NIES-2151@NIES2151@NIES-2152@NIES2152@NIES-2159@NIES2159@NIES-2170@NIES2170
3728@Hirayama, A., Sueyoshi, M. N., Nakano, T., Ota, Y., Kurita, H., Tasaki, M., Kuroiwa, Y., Kato, T., Serizawa, S., Kojima, K., Al-Maamari, R. S., Hasegawa, T., Thomas-Hall, S. R., Schenk, P. M.@.Development of large-scale microalgae production in the Middle East.@Bioresour. Technol.,@343,@126036 (article ID).@2022@@Chlorella sorokiniana; Large-scale microalgae production; Outdoor raceway ponds; Photobioreactor; Water temperature control@NIES-2169@NIES2169
3729@Mikulic, P. & Beardall, J.@Oxidative and anti-oxidative responses to metal toxicity in an extremophilic alga (Cyanidium caldarium) and a neutrophilic alga (Chlamydomonas reinhardtii).@Phycologia,@60,@513-523.@2021@@Oxidative stress; Reactive oxygen species (ROS); Zinc toxicity@NIES-2137@NIES2137
3730@Suzuki, S., Kawachi, M., Tsukakoshi, C., Nakamura, A., Hagino, K., Inouye, I., Ishida, K.@Unstable relationship between Braarudosphaera bigelowii (= Chrysochromulina parkeae) and its nitrogen-fixing endosymbiont.@Front. Plant Sci.,@12,@749895 (article ID).@2021@@nitrogen fixation; endosymbiosis; haptophyte; UCYN-A; reductive evolution@NIES-3865@NIES3865@NIES-4442@NIES4442
3731@Tawfik, A., Niaz, H., Qadeer, K., Qyyum, M. A., Liu, J. J., Lee, M.@Valorization of algal cells for biomass and bioenergy production from wastewater: Sustainable strategies, challenges, and techno-economic limitations.@Renew. Sust. Energ. Rev.,@157,@112024 (article ID).@2022@@Xenobiotic compounds; Micro-pollutants; Enzyme activity; Biomass; Bioenergy; Algae-based wastewater treatment@NIES-23@NIES23@NIES-422@NIES422@NIES-437@NIES437@NIES-226@NIES226@NIES-2169@NIES2169@NIES-2220@NIES2220@NIES-3284@NIES3284@NIES-44@NIES44@NIES-19@NIES19
3732@Naknaen, A., Ratsameepakai, W., Suttinun, O., Sukpondma, Y., Khan, E., Pomwised, R.@Microcystis sp. co-producing microcystin and saxitoxin from Songkhla Lake Basin, Thailand.@Toxins,@13,@631 (article ID).@2021@@Songkhla Lake Basin; Microcystis; extracellular polymeric substances; microcystins; saxitoxin@NIES-843@NIES843
3733@Sun, H., Wu, T., Chen, H Y., Ren, Y., Yang, S., Huang, J., Mou, H., Chen, F.@Powerful tools for productivity improvements in microalgal production.@Renew. Sust. Energ. Rev.,@152,@111609 (article ID).@2021@@Microalgal production; Productivity improvement; Kinetic model; Metabolic flux analysis; Genetic tool; Lipid biosynthesis@NIES-2140@NIES2140@NIES-144@NIES144@NIES-2146@NIES2146
3734@Sardool, G., Daud, M. A., Hamatani, Y., Megat, M. J., Noor, M., Ustumi, M., Goto, M., Sugiura, N., Ujang, Z.@Suppression of Aphanizomenon flos-aquae by solid polymer electrode (SPE) membrane electrolysis with aerated systems.@PERINTIS eJournal,@11,@1-22.@2021@@advance oxidation; aeration; cyanobacteria; degradation; electrolysis@NIES-1258@NIES1258
3735@Suzuki, S., Matsuzaki, R., Yamaguchi, H., Kawachi, M.@What happend before losses of photosynthesis in Cryptophyte algae?@Mol. Biol. Evol.,@39,@msac001 (article ID).@2022@@cryptophyte; Cryptomonas borealis: genome evolution; mixotrophy; photosynthetic loss@NIES-1005@NIES1005@NIES-1327@NIES1327@NIES-3952@NIES3952@NIES-698@NIES698@NIES-703@NIES703@NIES-2716@NIES2716@NIES-1730@NIES1730@NIES-2332@NIES2332@NIES-715@NIES715@NIES-345@NIES345@NIES-1006@NIES1006@NIES-1375@NIES1375@NIES-2331@NIES2331@NIES-348@NIES348@NIES-281@NIES281@NIES-276@NIES276
3736@Pröschold, T. & Darienko, T.@Choricystis and Lewiniosphaera gen. nov. (Trebouxiophyceae Chlorophyta), two different green algal endosymbionts in freshwater sponges.@Symbiosis,@82,@175-188.@2020@@Choricystis; Lewiniosphaera; Freshwater sponges; Endosymbiosis@NIES-2342@NIES2342@NIES-4292@NIES4292@NIES-2171@NIES2171@NIES-4033@NIES4033@NIES-2167@NIES2167
3737@Hirooka, T., Nagase, H., Hirata, K., Miyamoto, K.@Degradation of 2,4-dinitrophenol by a mixed culture of photoautotrophic microorganisms.@Biochem. Eng. J.,@29,@157-162.@2006@@2,4-Dinitrophenol; 2-Amino-4-nitrophenol; Anabaena variabilis; Anabaena cylindrica; Mixed culture@NIES-19@NIES19@NIES-23@NIES23@NIES-3284@NIES3284
3738@Nozaki, H., Mahakham, W., Heman W., Matsuzaki, R., Kawachi, M.@Morphology, mating system and taxonomy of Volvox africanus (Volvocaceae, Chlorophyceae) from Thailand.@Bot. Stud.,@63,@1 (article ID).@2022@@@NIES-3780@NIES3780@NIES-4467@NIES4467@NIES-3781@NIES3781@NIES-3782@NIES3782@NIES-3783@NIES3783@NIES-4468@NIES4468
3739@Yamasaki, Y., Hirayama, R., Yamamoto, A., Yuasa, K., Shikata, T.@Effects of micronutrients on the detection of extracellular superoxide produced by the harmful raphidophyte Chattonella antiqua in culture.@J. Plankton Res.,@44,@36–47.@2022@@Chattonella; fish mortality; harmful algal bloom; manganese; reactive oxygen species; superoxide@NIES-1@NIES1
3740@Myint, A. A., Hariyanto, P., Irshad, M., Ruqian, C., Wulandari, S., Hong, M. E., Sim, S. J., Kim, J.@Strategy for high-yield astaxanthin recovery directly from wet Haematococcus pluvialis without pretreatment.@Bioresour. Technol.,@346,@126616 (article ID).@2022@@Haematococcus pluvialis; Astaxanthin; Wet ball mill extraction; Antioxidant activities@NIES-144@NIES144
3741@Temraleeva, A., Krivina, E., Boldina, O.@Edaphochloris, gen. nov.: a new genus of soil green algae (Trebouxiophyceae, Chlorophyta) with simple morphology.@Plant Syst. Evol.,@308,@4 (article ID).@2022@@@NIES-4016@NIES4016
3742@Park, S. A., Jeong, H., J., Ok, J. H., Kang, H. C., You, J. H., Eom, S. H., Yoo, Y. D., Lee, M. J.@Bioluminescence capability and intensity in the dinoflagellate Alexandrium species.@Algae,@36,@299-314.@2021@@harmful algal bloom; luciferase gene; luminescence; protist; red tide@NIES-3611@NIES3611@NIES-4274@NIES4274
3743@Mizoi, K., Rodríguez-González, V., Sasaki, M., Suzuki, S., Honda, K., Ishida, N., Suzuki, N., Kuchitsu, K., Kondo, T., Yuasa, M., Fujishima, A., Teshima, K., Terashima, C.@Interactions between pH, reactive species, and cells in plasma-activated water can remove algae.@RSC Adv.,@12,@7626-7634.@2022@@@NIES-2170@NIES2170
3744@Nishi, K., Akizuki, S., Toda, T., Matsuyama, T., Ida, J.@Advanced light-tolerant microalgae-nitrifying bacteria consortia for stable ammonia removal under strong light irradiation using light-shielding hydrogel.@Chemosphere,@297,@134252 (article ID).@2022@@Microalgae–nitrifying bacteria consortia; Photoinhibition; Light-shielding; Free ammonia; Immobilisation@NIES-2173@NIES2173
3745@Le, V. V., Ko, S.-R.; Kang, M., Lee, S.-A., Oh, H.-M., Ahn, C.-Y.@Algicide capacity of Paucibacter aquatile DH15 on Microcystis aeruginosa by attachment and non-attachment effects.@Environmental Pollution,@302,@119079 (article ID).@2022@@Cyanobacterial blooms; Microcystin; Mitigation; Biodegradation; Biological alternative treatment@NIES-843@NIES843
3746@Minoda, A., Miyashita, S., Fujii, S., Inagaki, K., Takahashi, Y.@Cell population behavior of the unicellular red alga Galdieria sulphuraria during precious metal biosorption.@J. Hazard. Mater.,@432,@128576 (article ID).@2022@@biosorption; adsorption mechanism; single cell ICP-MS; XAFS; metal selectivity@NIES-3638@NIES3638
3747@Carrell, A. A., Lawrence, T. J., Cabugao, K. G. M., Carper, D. L., Pelletier, D. A., Lee, J. H., Jawdy, S., Grimwood, J., Schmutz, J., Hanson, P. J., Shaw, A. J., Weston, D. J.@Habitat-adapted microbial communities mediate Sphagnum peatmoss resilience to warming.@New Phytol.,@234,@2111-2125.@2022@@climate change; heat tolerance; microbiome transfer; moss; peatland; Sphagnum; symbiosis; synthetic communities@NIES-81@NIES81@NIES-25@NIES25@NIES-2107@NIES2107@NIES-2100@NIES2100@NIES-2098@NIES2098
3748@Abe, M., Okuda, Y., Hashimoto, S.@Effects of light intensity on the production of VSLs from the marine diatom Ditylum brightwellii.@J. Atmos. Chem.,@79,@1–16.@2022@@Chloroform; Bromoform; Halogenated hydrocarbons; Ditylum; Phytoplankton; Light dependence@NIES-350@NIES350
3749@Sumiya, N.@Coordination mechanism of cell and cyanelle division in the glaucophyte alga Cyanophora sudae.@Protoplasma,@259,@855–867.@2021@@Cyanelle division; Glaucophyte; Cell cycle; Cyanophora@NIES-764@NIES764
3750@Li, Y. & MChen, M.@The specificity of the bilin lyase CpcS for chromophore attachment to allophycocyanin in the chlorophyll f-containing cyanobacterium Halomicronima hongdechloris.@Photosynth. Res.,@151,@213–223.@2021@@Allophycocyanin; Bilin lyase; Cyanobacteria; Far-red light photoacclimation; Halomicronema hongdechloris; Photosynthesis@NIES-267@NIES267@NIES-22@NIES22
3751@Wu, D., Yang, C., Zhang, X., Hou, X., Zhang, S., Dai, X., Zhang, X., Igarashi, Y., Luo, F.@Algicidal effect of tryptoline against Microcystis aeruginosa: Excess reactive oxygen species production mediated by photosynthesis.@Sci. Total Environ.,@806,@150719 (article ID).@2022@@Cyanobacterial bloom; Algicidal activity; Photosystem; Electron transport; Water quality; Light conditions@NIES-843@NIES843
3752@Nowruzi, B. & MShalygin, S.@Multiple phylogenies reveal a true taxonomic position of Dulcicalothrix alborzica sp. nov. (Nostocales, Cyanobacteria).@Fottea,@21,@235-246.@2021@@new species; polyphasic approach; rbcL; rpoC1; 16S–23S ITS@NIES-4105@NIES4105
3753@Azuma, T., Pánek, T., Tice, A. K., Kayama, M., Kobayashi, M., Miyashita, H., Suzaki, T., Yabuki, A., Brown, M. W., Kamikawa, R.@An enigmatic stramenopile sheds light on early evolution in Ochrophyta plastid organellogenesis.@Mol. Biol. Evol.,@39,@msac065 (article ID).@2022@@Actinophryidae; plastid evolution; aminoacyl-tRNA synthase; gene transfer; phylogenomics; organellar DNA@NIES-2497@NIES2497@NIES-3374@NIES3374
3754@Shikata, T., Yuasa, K., Kitatsuji, S., Sakamoto, S., Akita, K., Fujinami, Y., Nishiyama, Y., Kotake, T., Tanaka, R., Yamasaki, Y.@Superoxide Production by the Red Tide-Producing Chattonella marina Complex (Raphidophyceae) Correlates with Toxicity to Aquacultured Fishes.@Antioxidants,@10,@1635 (article ID).@2021@@harmful algal bloom; interstrain variation; oxidant stress; reactive oxygen species (ROS)@NIES-1@NIES1
3755@Kawafune, K., Hongoh, Y., Nozaki, H.@A rickettsial endosymbiont inhabiting the cytoplasm of Volvox carteri (Volvocales, Chlorophyceae).@Phycologia,@53,@95-99.@2014@@Endosymbiont; Fluorescence in situ hybridization; Phylogenetic analysis; Rickettsia; Rickettsiaceae; Volvox carteri@NIES-424@NIES424@NIES-425@NIES425@NIES-577@NIES577
3756@Zhang, P., MacTavish, B. S., Yang, G., Chen, M., Roh, J., Newsome, K. R., Bruner, S. D., Ding, Y.@Cyanobacterial dihydroxyacid dehydratases are a promising growth inhibition target.@ACS Chem. Biol.,@15,@2281–2288.@2020@@@NIES-298@NIES298
3757@Honda, T., Takahashi, H., Sako, Y., Yoshida, T.@Gene expression of Microcystis aeruginosa during infection of cyanomyovirus Ma-LMM01.@Fish. Sci.,@80,@83-91.@2014@@Cyanophage; Ma-LMM01; Microcystis aeruginosa; Transcriptional regulation; Auxiliary; metabolic genes@NIES-298@NIES298
3758@Yoshida, T., Kamiji, R., Nakamura, G., Kaneko, T., Sako, Y.@Membrane-like protein involved in phage adsorption associated with phage-sensitivity in the bloom-forming cyanobacterium Microcystis aeruginosa.@Harmful Algae,@34,@69-75.@2014@@Cyanobacteria; Microcystis aeruginosa; Cyanophage; Phage resistance@NIES-298@NIES298
3759@Kim, B.-H., Sang, M., Hwang, S.-J., Han, M.-S.@In situ bacterial mitigation of the toxic cyanobacterium Microcystis aeruginosa: implications for biological bloom control.@Limnol. Oceanogr. Meth.,@6,@513-522.@2008@@@NIES-44@NIES44@NIES-19@NIES19@NIES-101@NIES101@NIES-298@NIES298
3760@Iwataki, M., Lum, W. M., Kuwata, K., Takahashi, K., Arima, D., Kuribayashi, T., Kosaka, Y., Hasegawa, N., Watanabe, T., Shikata, T., isada, T., Orlova, T. Y., Sakamoto, S.@Morphological variation and phylogeny of Karenia selliformis (Gymnodiniales, Dinophyceae) in an intensive cold-water algal bloom in eastern Hokkaido, Japan.@Harmful Algae,@114,@102204 (article ID).@2022@@@NIES-4541@NIES4541@NIES-4542@NIES4542@NIES-4543@NIES4543@NIES-4544@NIES4544
3761@Mohd Zul, S., Iwamoto, K., Mohd Rahim, M. A., Abdullah, N., Mohamad, S. E., Shimizu, K., Hara, H.@Production of liquid fertilizer from chicken feather waste by using subcritical water treatment for plant and algal growth.@IOP Conf. Ser.: Earth Environ. Sci.,@479,@012033 (article ID).@2020@@Subcritical water; fertilizer; chicken feather; Galdieria@NIES-3638@NIES3638
3762@Kato, K., Nagao, R., Ueno, Y., Yokono, M., Suzuki, T., Jiang, T.-Y., Dohmae, N., Akita, F., Akimoto, S., Miyazaki, N., Shen, J.-R.@Structure of a tetrameric photosystem I from a glaucophyte alga Cyanophora paradoxa.@Nat. Commun.,@13,@1679 (article ID).@2022@@@NIES-547@NIES547
3763@Lee, J. E., Yu, M. N., Yu, S., Byeon, M.@Occurrence and phylogenetic analysis of Pseudanabaena sp. producing 2-methylisoborneol in drinking water source of South Korea.@Environ. Microbiol. Rep.,@14,@197-202.@2022@@@NIES-512@NIES512
3764@Jung, P., D'Agostino, P. M., Brust, K., Büdel, B., Lakatos, M.@Final destination? Pinpointing Hyella disjuncta sp. nov. PCC 6712 (Cyanobacteria) based on taxonomic aspects, multicellularity, nitrogen fixation and biosynthetic gene clusters.@Life-Basel,@11,@916 (article ID).@2021@@@NIES-592@NIES592@NIES-3754@NIES3754
3765@Yu, Z., Xu, Q., Xiao, C., Li, H., Wu, W., Du, W., Zhao, J., Liu, H., Wang, H., Liu, C.@SYBR Green real-time qPCR method: Diagnose drowning more rapidly and accurately.@Forensic Sci.Int.,@321,@110720 (article ID).@2021@@Drowning diagnosis; SYBR Green real-time qPCR; Diatom test; Plankton@NIES-23@NIES23
3766@Oliveira, C. Y. B., Oliveira, C. D. L., Prasad, R., Ong, H. C., Araujo, E. S., Shabnam, N., Gálvez, A. O.@A multidisciplinary review of Tetradesmus obliquus: a microalga suitable for large-scale biomass production and emerging environmental applications.@Rev. Aquac.,@13,@1594-1618.@2021@@Acutodesmus obliquus; bibliometric analysis; biorefinery; renewable energy; Scenedesmus obliquus; wastewater treatment@NIES-2280@NIES2280
3767@Qian, J., Shimotori, K., Liu, X., Ban, S., Akizuki, S., Fujiwara, M., Kodera, T., Toda, T., Imai, A.@Enhancement of algal growth by Mg2+ released from anaerobic digestion effluent of aquatic macrophytes through photolysis.@Biochem. Eng. J.,@172,@108065 (article ID).@2021@@Ultraviolet photolysis; DOM degradation; DOM molecular size distribution; Mg availability; Bio-digester effluent@NIES-2173@NIES2173
3768@Yubuki, N., Huang, S. S. C., Leander, B. S.@Comparative Ultrastructure of Fornicate Excavates, Including a Novel Free-living Relative of Diplomonads: Aduncisulcus paluster gen. et sp. nov.@Protist,@167,@584-596.@2016@@Culturing; cytoskel; etonevolution; flagellar apparatus; morphology; ultrastructure@NIES-4563@NIES4563
3769@Hashimoto, K., Uchida, H., Nishimura, T., Oikawa, H., Funaki, H., Honma, C., Yamaguchi, H., Suzuki, T., Adachi, M.@Determination of optimal culture conditions for toxin production by a Prorocentrum limaHarmful Algae,@103,@102025 (article ID).@2021@@@NIES-4558@NIES4558
3770@Hamano, R., Shoumura, S., Takeda, Y., Yamazaki, T., Hirayama, K., Hanada, Y., Mayama, S., Takemura, M., Lin, H.-J., Umemura, K.@Sinking of four species of living diatom cells directly observed by a “tumbled” optical microscope.@Microsc. microanal.,@27,@1154-1160.@2021@@@NIES-589@NIES589
3771@Takano, H., Tsunefuka, T., Takio, S., Ishikawa, H., Takechi, K.@Visualization of plastid peptidoglycan in the charophyte alga Klebsormidium nitens using a metabolic labeling method.@Cytologia,@83,@375-380.@2018@@charophyte; Evolution; Klebsormidium nitens; Plastid peptidoglycan; Streptophyte@NIES-2285@NIES2285
3772@Endo, H., Yoshida, M., Uji, T., Saga, N., Inoue, K., Nagasawa, H.@Stable nuclear transformation system for the coccolithophorid alga Pleurochrysis carterae.@Sci Rep,@6,@22252 (article ID).@2016@@@NIES-4509@NIES4509
3773@Kono, M., Kon, Y., Ohmura, Y., Satta, Y., Terai, Y.@In vitro resynthesis of lichenization reveals the genetic background of symbiosis-specific fungal-algal interaction in Usnea hakonensis.@BMC Genomics,@21,@671 (article ID).@2020@@@NIES-4538@NIES4538
3774@Kono, M., Tanabe, H., Ohmura, Y., Satta, Y., Terai, Y.@Physical contact and carbon transfer between a lichen-forming Trebouxia alga and a novel Alphaproteobacterium.@Microbiology-(UK),@163,@678-691.@2017@@Usnea hakonensis; carbon cycle; Sphingomonas@NIES-4538@NIES4538
3775@Hoshihara, A. Y., Fujiki, T., Shigeoka, S., Hirayama, M.@Physiological response of the symbiotic dinoflagellate Pelagodinium béii to ultraviolet radiation: synthesis and accumulation of mycosporine-like amino acids.@Symbiosis,@86,@281-292.@2022@@Foraminifera; Ultraviolet radiation; Pelagodinium béii; Symbiotic algae; Mycosporine-like amino acids@NIES-4008@NIES4008
3776@Nozaki, H., Mori, F., Tanaka, Y., Matsuzaki, R., Yamaguchi, H., Kawachi, M.@Cryopreservation of vegetative cells and zygotes of the multicellular volvocine green alga Gonium pectorale.@BMC Microbiol., @22,@103 (article ID).@2022@@@NIES-653@NIES653@NIES-4499@NIES4499@NIES-4500@NIES4500@NIES-4501@NIES4501@NIES-4502@NIES4502@NIES-2261@NIES2261@NIES-4121@NIES4121@NIES-468@NIES468@NIES-469@NIES469@NIES-569@NIES569@NIES-570@NIES570@NIES-645@NIES645@NIES-646@NIES646@NIES-737@NIES737@NIES-851@NIES851@NIES-852@NIES852@NIES-885@NIES885@NIES-652@NIES652@NIES-288@NIES288@NIES-290@NIES290@NIES-654@NIES654@NIES-655@NIES655@NIES-2263@NIES2263
3777@Watanabe, S., Mezaki, N., Nakada, T.@Ultrastructure and phylogeny of Parietochloris toyamaensis sp. nov. and P. bilobata (Trebouxiophyceae).@Eur. J. Phycol.,@58,@35-44.@2023@@contractile vacuoles; dorsoventral zoospores; Ettlia; 18S rDNA; ITS2; Neochloris; soil algae; microtubular roots; Chlorophytes; SSU rDNA@NIES-3574@NIES3574
3778@Yancey, C. E., Smith, D. J., Den Uyl, P. A., Mohamed, O. G., Yu, F., Ruberg, S. A., Chaffin, J. D., Goodwin, K. D., Tripathi, A., Sherman, D., Dick, G. J.@Metagenomic and metatranscriptomic insights into population diversity of Microcystis blooms: Spatial and temporal dynamics of mcy genotypes, including a partial operon that can be abundant and expressed.@Appl. Environ. Microbiol.,@88,@e0246421 (article ID).@2022@@freshwater harmful algal blooms; Microcystis; metagenomics; mcy operon; Lake Erie@NIES-981@NIES981
3779@Phua, Y. H., Husnik, F., Lemer, S., Wakeman, K. C.@Phylogeny of Amphidinium (Dinophyceae) from Guam and Okinawa, with descriptions of A. pagoense sp. nov. and A. uduigamense sp. nov.@Phycologia,@61,@241-254.@2022@@Biodiversity; Epiphytic dinoflagellates; Microalgae; Molecular phylogeny; Taxonomy@NIES-4545@NIES4545@NIES-4605@NIES4605@NIES-4607@NIES4607@NIES-4606@NIES4606@NIES-4608@NIES4608
3780@Jester, B. W. et al.@Development of spirulina for the manufacture and oral delivery of protein therapeutics.@Nat. Biotechnol.,@40,@956–964.@2022@@@NIES-39@NIES39
3781@van Zee, M., de Rutte, J., Rumyan, R., Williamson, C., Burnes, T., Radakovits, R., Eugenio, A. S., Badih, S., Lee, S., Lee, D.-H., Archang, M., Di Carlo, D.@High-throughput selection of cells based on accumulated growth and division using PicoShell particles.@Proc. Natl. Acad. Sci. U. S. A.,@119,@e2109430119 (article ID).@2022@@@NIES-48@NIES48
3782@Rockwell, N. C., Moreno, M. V., Martin, S. S., Lagarias, J. C.@Protein–chromophore interactions controlling photoisomerization in red/green cyanobacteriochromes.@Photochem. Photobiol. Sci.,@21,@471–491.@2022@@Cyanobacteriochrome; Photoisomerization; Evolution; Structure/function@NIES-21@NIES21
3783@Kenzaki, A., Okunishi, S., Tomoda, T., Shioura, Y., Uchida, M., Tezuka, N., Maeda, H.@Observation of the feeding behaviour of reared Japanese eel Anguilla japonica leptocephali fed picocyanobacteria Synechococcus spp.@J. Fish Biol.,@100,@727-737.@2022@@Anguilla japonica; density dependence; feeding behaviour; feeding selectivity; photoperiodic condition@NIES-972@NIES972@NIES-976@NIES976@NIES-979@NIES979
3784@Lee, N., Narasimhan, A. L., Moon, G., Kim, Y.-E., Park, M., Kim, B., Mahadi, R., Chung, S., Oh, Y.-K.@Room-temperature cell disruption and astaxanthin recovery from Haematococcus lacustris cysts using ultrathin α-quartz nanoplates and ionic liquids.@Appl. Sci.-Basel,@12,@2210 (article ID).@2022@@microalgae; Haematococcus lacustris; astaxanthin; ionic liquid; nanoplate; cell disruption; room-temperature extraction@NIES-144@NIES144
3785@Repetti, S. I., Iha, C., Uthanumallian, K., Jackson, C. J., Chen, Y., Chan C. X., Verbruggen, H.@Nuclear genome of a pedinophyte pinpoints genomic innovationand streamlining in the green algae.@New Phytol.,@233,@2144–2154.@2022@@Chlorophyta; genome evolution; green algae; nuclear genome; pedinophyte; streamlining; UTC; Viridiplantae@NIES-2566@NIES2566
3786@Kamikawa, R. et al.@Genome evolution of a nonparasitic secondary heterotroph, the diatom Nitzschia putrida.@Sci. Adv.,@8,@eabi5075 (article ID).@2022@@@NIES-4239@NIES4239
3787@Jung, J., Seo, Y. L., Jeong, S. E., Baek, J. H., Park, H. Y., Jeon, C. O.@Linear six-carbon sugar alcohols induce lysis of Microcystis aeruginosa NIES-298 cells.@Front. Microbiol.,@13,@834370 (article ID).@2022@@@NIES-298@NIES298
3788@Barcytė, D., Pusztai, M., Škaloud, P., Eliáš, M.@When you like other algae: Adglutina synurophila gen. et sp. nov. (Moewusinia, Chlorophyceae), a clingy green microalga associated with Synura colonies.@Protist,@173,@125858 (article ID).@2022@@Diversity; epibionts; green algae; taxonomy; Volvocales@NIES-2225@NIES2225@NIES-2499@NIES2499
3789@Cao, H., Xu, D., Zhang, T., Ren, Q., Xiang, L., Ning, C., Zhang, Y., Gao, R.@Comprehensive and functional analyses reveal the genomic diversity and potential toxicity of Microcystis.@Harmful Algae,@113,@102186 (article ID).@2022@@Microcystis; Pangenome; Toxicity; Diversity; Classification@NIES-2481@NIES2481@NIES-2549@NIES2549@NIES-843@NIES843@NIES-102@NIES102@NIES-88@NIES88@NIES-298@NIES298
3790@Tang, T., Liu, X., Yuan, Y., Kiya, R., Shen, Y., Zhang, T., Suzuki, K., Tanaka, Y., Li, M., Hosokawa, Y., Yalikun, Y.@Dual-frequency impedance assays for intracellular components in microalgal cells.@Lab Chip,@22,@550-559.@2022@@@NIES-48@NIES48
3791@Sato, N., Katsumata, Y., Sato, K., Tajima, N.@Cellular dynamics drives the emergence of supracellular structure in the Cyanobacterium, Phormidium sp. KS.@Life-Basel,@4,@819-836.@2014@@cyanobacteria; Phormidium; supracellular structure; biofilm; spiral formation; emergence of order; slime gun model@NIES-4263@NIES4263
3792@Park, B. S., Park, C.-S., Shin, Y., Yoon, S., Han, M.-S., Kang, Y.-H.@Different algicidal modes of the two bacteria Aeromonas bestiarum HYD0802-MK36 and Pseudomonas syringae KACC10292^T against harmful cyanobacteria Microcystis aeruginosa.@Toxins,@14,@128 (article ID).@2022@@Microcystis aeruginosa; algicidal bacteria; Aeromonas bestiarum; Pseudomonas syringe; algicidal modes@NIES-298@NIES298@NIES-94@NIES94
3793@Katayama, N. & MOsanai, T.@Arginine inhibition of the argininosuccinate lyases is conserved among three orders in cyanobacteria.@Plant Mol.Biol.,@110,@13–22.@2022@@Arginine biosynthesis; Argininosuccinate lyase; Cyanobacteria; Synechocystis@NIES-39@NIES39
3794@Davison, H. R., Pilgrim, J., Wybouw, N., Parker, J., Pirro, S., Hunter-Barnett, S., Campbell, P. M., Blow, F., Darby, A. C., Hurst, G. D. D., Siozios, S.@Genomic diversity across the Rickettsia and ‘Candidatus Megaira’ genera and proposal of genus status for the Torix group.@Nat. Commun.,@13,@2630 (article ID).@2022@@@NIES-425@NIES425@NIES-296@NIES296
3795@Fekrat, F., Nami, B., Hejazi, M. A., Ghafari, M. R., Shahbazi, M.@Correlation network analysis of metabolites reveals the role of nitrogen‑containing metabolic stressors in stimulating high‑value compounds biosynthesis in Arthrospira platensis.@J. Appl. Phycol.,@34,@1967–1982.@2022@@Arthrospira platensis; Aspartic acid; Monosodium glutamate; Metabolic stress@NIES-39@NIES39
3796@Zhou, W., Zhang, X., Wan, A., Yang, L., Gan, Q., Yi, L., Summons, R. E., Volkman, J. K., Lu, Y.@Widespread sterol methyltransferase participates in the biosynthesis of both C4α- and C4β-methyl sterols.@J. Am. Chem. Soc.,@144,@9023-9032.@2022@@@NIES-3808@NIES3808
3797@Yamaguchi, H., Zaima, M., Adachi, M., Tomaru, Y., Asahara, H., Nishiwaki, N.@Selective utilization of phosphorus compounds by Chaetoceros tenuissimus (Bacillariophyceae): Approach using ³¹P nuclear magnetic resonance analysis.@Phycol. Res.,@70,@151-159.@2022@@Chaetoceros tenuissimus; chelating resin; diatom; nuclear magnetic resonance (NMR); organic phosphorus,phosphatase; phosphate esters@NIES-3715@NIES3715
3798@Oda, Y., Sakamoto, M., Miyabara, Y.@Colony formation in three species of the family Scenedesmaceae (Desmodesmus subspicatus, Scenedesmus acutus, Tetradesmus dimorphus) exposed to sodium dodecyl sulfate and its interference with grazing of Daphnia galeata.@Arch. Environ. Contam. Toxicol.,@82,@37-47.@2022@@@NIES-95@NIES95@NIES-119@NIES119@NIES-802@NIES802
3799@Lee, S.-A., Lim, W.-H., Ko, S.-R., Kim, B., Oh, H.-M., Ahn, C.-Y.@Lifespan extension and anti-oxidant effects of carotenoid pigments in Caenorhabditis elegans.@Bioresour. Technol. Reports,@17,@100962 (article ID).@2022@@Haematococcus lacustris; Carotenoids; Caenorhabditis elegans; Lifespan; Antioxidation@NIES-144@NIES144
3800@Isaji, Y., Yoshikawa, C., Ogawa, N. O., Matsumoto, K., Makabe, A., Toyoda, S., Ishikawa, N. F., Ogawa, H., Saito, H., Honda, M. C., Ohkouchi, N.@Nitrogen sources for phytoplankton in the Eastern Indian Ocean determined from δ¹⁵N of chlorophyll a and divinylchlorophyll a.@Geochem. Geophys. Geosyst.,@23,@e2021GC010057 (article ID).@2022@@@NIES-2086@NIES2086@NIES-2885@NIES2885@NIES-2887@NIES2887
3801@Wang, Q., Shen, Q., Wang, J., Zhao, J., Zhang, Z., Lei, Z., Yuan, T., Shimizu, K., Liu, Y., Lee, D.-J.@Insight into the rapid biogranulation for suspended single-cell microalgae harvesting in wastewater treatment systems: Focus on the role of extracellular polymeric substances.@Chem. Eng. J.,@430,@132631 (article ID).@2022@@@NIES-2195@NIES2195
3802@Leblond, J. D., Sabir, K., Graeff, J. E.@Galactolipid composition of Gertia stigmatica (Dinophyceae), an atypical member of the Kareniaceae with a peridinincontaining, non-haptophyte-derived plastid.@Phycol. Res.,@70,@137-141.@2022@@chloroplast; dinoflagellate; Dinophyceae; Gertia; Kareniaceae; lipid@NIES-4330@NIES4330
3803@Pozzer, A. C., Gómez, P. A., Weiss, J.@Volatile organic compounds in aquatic ecosystems - Detection, origin, significance and applications.@Sci. Total Environ.,@,@156155 (article ID).@2022@@VOCs; Aquatic microorganisms; Marine and freshwater environments; Ecological impacts; Infochemicals; Bioindicators@NIES-843@NIES843
3804@Kameyama, K., Sugiura, N., Isoda, H., Inamori, Y., Maekawa, T.@Effect of nitrate and phosphate concentration on production of microcystins by Microcystis viridis NIES 102.@Aquat. Ecosyst. Health Manag.,@5,@443–449.@2002@@growth phase@NIES-102@NIES102
3805@Pilátová, J., Pánek, T., Oborník, M., Čepička, I., Mojzeš, P.@Revisiting biocrystallization: purine crystalline inclusions are widespread in eukaryotes.@ISME J.,@16,@2290-2294.@2022@@@NIES-2285@NIES2285@NIES-303@NIES303@NIES-995@NIES995@NIES-1604@NIES1604@NIES-2860@NIES2860@NIES-67@NIES67@NIES-2146@NIES2146
3806@Jiang, X., Zhang, Y., Hutchins, D. A., Gao, K.@Nitrogen-limitation exacerbates the impact of ultraviolet radiation on the coccolithophore Gephyrocapsa oceanica.@J. Photochem. Photobiol. B-Biol.,@226,@112368 (article ID).@2022@@@NIES-1318@NIES1318
3807@Nakanishi, A., Iritani, K., Tsuruta, A., Yamamoto, N., Watanabe, M., Ozawa, N., Watanabe, M., Zhang, K., Tokudome, A.@Fabrication of cell plastics composed only of unicellular green alga Chlamydomonas reinhardtii as a raw material.@Photosynth. Res.,@106,@4459–4468.@2022@@Biomass plastics; Cell plastics; Carbon recycling; Green algae; Chlamydomonas reinhardtii; Intracellular contents@NIES-2235@NIES2235
3808@Lee, K. H., Chun, Y., Lee, J. H., Park, C., Yoo, H. Y., Kwak, H. S.@Improved productivity of astaxanthin from photosensitive Haematococcus pluvialis using phototaxis technology.@Mar. Drugs,@20,@ (article ID).@2022@@Haematococcus pluvialis; astaxanthin; photosynthetic efficiency; microfluidics; photobioreactor@NIES-144@NIES144
3809@Han, S.-I., Jeon, M. S., Ahn, J.-W., Choi, Y.-E.@Establishment of ultrasonic stimulation to enhance growth of Haematococcus lacustris.@Bioresour. Technol.,@360,@127525 (article ID).@2022@@Haematococcus lacustris; Astaxanthin; Ultrasonication; Cell division@NIES-144@NIES144
3810@Jiang, M. & Nakano, S.@The crucial influence of trophic status on the relative requirement of nitrogen to phosphorus for phytoplankton growth.@Water Res.,@222,@118868 (article ID).@2022@@Nitrogen; Phosphorus; Trophic status; Phytoplankton; Nitrogen-to-phosphorus ratio; Limiting factor@NIES-44@NIES44@NIES-2093@NIES2093@NIES-2172@NIES2172
3811@Jang, S. H., Jeong, H. J., Yoo, Y. D.@Gambierdiscus jejuensis sp. nov., an epiphytic dinoflagellate from the waters of Jeju Island, Korea, effect of temperature on the growth, and its global distribution.@Harmful Algae,@80,@149-157.@2018@@Benthic dinoflagellate; Ciguatera fish poisoning; Epiphytic dinoflagellate; Morphology; New species; Phylogeny@NIES-4120@NIES4120
3812@Přibyl, P. & MProcházková, L.@Trebonskia zoosporica, gen. et sp. nov., a new member of the Goniochloridales (Eustigmatophyceae, Stramenopiles) with an unusual mode of reproduction.@Eur. J. Phycol.,@58,@199-213.@2023@@18S rRNA; Eustigmatophyceae; fatty acids; Goniochloridales; rbcL; Trebonskia zoosporica; zoospores@NIES-2860@NIES2860
3813@Fawley, M. W., Fawley, K. P., Cahoon, A. B.@Finding needles in a haystack—Extensive diversity in the eustigmatophyceae revealed by community metabarcode analysis targeting the rbcL gene using lineage-directed primers.@J. Phycol.,@57,@1636-1647.@2021@@algal diversity; community structure; environmental DNA; Eustigmatophyceae; metabar-coding; species diversity@NIES-2860@NIES2860
3814@Ota, S., Fuchida, S., Yamaguchi, H., Yamagishi, T., Yamamoto, H., Koshikawa, H., Kawachi, M.@Propidium iodide staining and flow cytometry-based assessment of heavy metal impact on marine phytoplankton.@Cytologia,@87,@177-187.@2022@@Cyanobacteria; Deep-sea mining; Flow cytometry; Heavy metal contaminant; Microalgae; On-chip sort@NIES-981@NIES981@NIES-2670@NIES2670@NIES-969@NIES969
3815@Jung, J, Baek, J. H., Lee, Y., Jeong, S. E., Jeon, C. O.@The self-Bleaching process of Microcystis aeruginosa is delayed by a symbiotic bacterium Pseudomonas sp. MAE1-K and promoted by methionine deficiency.@Microbiol. Spectr.,@10,@e0181422 (article ID).@2022@@Microcystis aeruginosa; bleaching; methionine deficiency; Pseudomonas; metZ mutant; bleaching compounds@NIES-298@NIES298
3816@Phua, Y. H., Roy, M. C., Lemer ,S., Husnik, F., Wakeman, K. C.@Diversity and toxicity of Pacific strains of the benthic dinoflagellate Coolia (Dinophyceae), with a look at the Coolia canariensis species complex.@Harmful Algae,@109,@102120 (article ID).@2021@@Cooliatoxin; Cryptic species; Harmful algal bloom; High-resolution MS; Phylogeny; Taxonomy@NIES-3637@NIES3637
3817@Zeng, Y., Wang, J., Yang, C., Ding, M., Hamilton, P. B., Zhang, X., Yang, C., Zhnang, L., Dai, X.@A Streptomyces globisporus strain kills Microcystis aeruginosa via cell-to-cell contact.@Sci. Total Environ.,@769,@144489 (article ID).@2021@@Microcystis aeruginosa; Algicidal activity; Predator and prey; Streptomyces@NIES-44@NIES44@NIES-90@NIES90@NIES-843@NIES843
3818@Byamba, T., Hasegawa, K., Maeda, I.@Removal of Pb (II) from aqueous solution by a pectin-producing alga, Penium margaritaceum, immobilized on filter paper.@Microbiol. Res., @13,@1007-1017.@2022@@lead; unicellular alga; pectin; immobilization; filter paper@NIES-217@NIES217@NIES-303@NIES303
3819@Othman, F. S., Jamaluddin, H., Ibrahim, Z., Hara, H., Yahya, N. A., Iwamoto, K., Mohamad, S. E.@Production of α-linolenic acid by an oleaginous green algae Acutodesmus obliquus isolated from Malaysia.@J. Pure Appl. Microbiol.,@13,@1297-1306.@2019@@Acutodesmus obliquus; Chlorella sp.; Chlorella vulgaris; Lipid; Malaysia@NIES-1269@NIES1269
3820@Cheng, Y.-I., Chou, L., Chiu, Y.-F., Hsueh, H.-T., Kuo, C.-H., Chu, H.-A.@Comparative genomic analysis of a novel strain of Taiwan hot-spring cyanobacterium Thermosynechococcus sp. CL-1.@Front. Microbiol.,@11,@82 (article ID).@2020@@cyanobacterium; Thermosynechococcus; genome; comparative genomics; thermophilic; cyanobacterium; adaption@NIES-2134@NIES2134
3821@Kato, K., Hamaguchi, T., Nagao, R., Kawakami, K., Ueno, Y., Suzuki, T., Uchida, H., Murakami, A., Nakajima, Y., Yokono, M., Akimoto, S., Dohmae, N., Yonekura, K., Shen, J.-R.@Structural basis for the absence of low-energy chlorophylls in a photosystem I trimer from Gloeobacter violaceus.@eLife,@11,@e73990 (article ID).@2022@@@NIES-2134@NIES2134
3822@Nakane, D., Enomoto, G., Bäehre, H., Hirose, Y., Wilde, A., Nishizaka, T.@Thermosynechococcus switches the direction of phototaxis by a c-di-GMP-dependent process with high spatial resolution.@eLife,@11,@e73405 (article ID).@2022@@@NIES-2134@NIES2134
3823@Kawakami, K., Hamaguchi, T., Hirose, Y., Kosumi, D., Miyata, M., Kamiya, N., Yonekura, K.@Core and rod structures of a thermophilic cyanobacterial light-harvesting phycobilisome.@Nat. Commun.,@13,@3389 (article ID).@2022@@@NIES-2134@NIES2134
3824@Ueda, R. & MWakisaka, M.@Effect of melatonin as a bio-stimulant of astaxanthin production from Haematococcus.@J. Jpn. Inst. Energy,@101,@132-137 (in Japanese with English summary).@2022@@Astaxanthin; Bio stimulant; Haematococcus lacustris; Melatonin@NIES-144@NIES144
3825@Yabuki, A., Tame, A., Mizuno, K.@Podomonas kaiyoae n. sp., a novel apusomonad growing axenically.@J. Eukaryot. Microbiol.,@70,@e12946 (article ID).@2023@@@NIES-4540@NIES4540
3826@Kawakami, K., Nagao, R., Tahara, Y. O., Hamaguchi, T., Suzuki, T., Dohmae, N., Kosumi, D., Shen, J.-R., Miyata, M., Yonekura, K., Kamiya, N.@Structural implications for a phycobilisome complex from the thermophilic cyanobacterium Thermosynechococcus vulcanus.@Biochim. Biophys. Acta-Bioenerg.,@1862,@148458 (article ID).@2021@@Cyanobacteria; Electron microscopy; GraFix; Phycobilisome@NIES-2134@NIES2134
3827@Zhu, S., Jiang, R., Qin, L., Huang, D., Yao, C., Xu, J., Wang, Z.@Integrated strategies for robust growth of Chlorella vulgaris on undiluted dairy farm liquid digestate and pollutant removal.@Sci. Total Environ.,@852,@158518 (article ID).@2022@@@NIES-227@NIES227
3828@Wang, Q., Yang, Y., Shen, Q., Chen, X., Li, F., Wang, J., Zhang, Z., Lei, Z., Yuan, T., Shimizu, K.@Energy saving and rapid establishment of granular microalgae system from tiny microalgae cells: Effect of decrease in upflow air velocity under intermittent aeration condition.@Bioresour. Technol.,@363,@127860 (article ID).@2022@@Microalgae biogranulation; Settleability; Upflow air velocity; Nutrients removal; Energy efficiency@NIES-2195@NIES2195
3829@Murakami, H., Kakutani, N., Kuroyanagi, Y., Iwai, M., Hori, K., Shimojima, M., Ohta, H.@MYB-like transcription factor NoPSR1 is crucial for membrane lipid remodeling under phosphate starvation in the oleaginous microalga Nannochloropsis oceanica.@FEBS Lett.,@594,@3384-3394.@2020@@membrane lipid; Nannochloropsis oceanica; phosphate starvation; transcription factor@NIES-2145@NIES2145
3830@Murakami, H., Nobusawa, T., Hori, K., Shimojima, M., Ohta, H.@Betaine lipid is crucial for adapting to low temperature and phosphate deficiency in Nannochloropsis.@Plant Physiol.,@177,@181–193.@2018@@@NIES-2145@NIES2145
3831@Ishida, Y. & MKadota, H.@The so-called freshwater red tide Uroglena americana in Lake Biwa.@Seikatsu Eisei,@27,@236-248 (in Japanese).@1983@@@NIES-395@NIES395
3832@Matsui, H., Sugihara, S., Wada, M., Ozaki, T., Saitoh, T., Kotani, T.@Application of genetic disruption of a Nannochloropsis oceanica cell wall synthesizing gene to n-3 HUFA enrichment of Brachionus plicatilis.@Aquaculture, @552,@738022 (article ID).@2022@@cesA1; Fish oil; Homologous recombination; Live feed; Photoautotrophic microalgae@NIES-2145@NIES2145
3833@Park, S., Lee, S., Kim, H. S., Choi, H. J., Jeong, O. C., Lin, R., Cho, Y., Lee, M.-H.@Square microchannel enables to focus and orient ellipsoidal Euglena gracilis cells by two-dimensional acoustic standing wave.@Microchim. Acta,@189,@331 (article ID).@2022@@Acoustofluidics; Microalgae; Acoustic focusing; Microfluidics; Flow cytometry@NIES-48@NIES48
3834@Fitriyah, F., Faramitha, Y., Sari, D. A., Kresnawaty, I., Panji, T., Santoso, D.@Molecular identification of species in genus Nannochloropsis using Ribulose-1,5-Biphosphate carboxylase/oxygenase large subunit (rbcL) gene barcode.@Eurasia. J. Biosci.,@14,@7855-7860.@2020@@DNA barcode; Microalgae; rbcL@NIES-2145@NIES2145@NIES-2587@NIES2587
3835@Chiang, Y.-H., Huang, Y.-J., Fu, H.-Y.@Identifcation of multiple nonphotochemical quenching processes in the extremophilic red alga Cyanidioschyzon merolae.@Photosynth. Res.,@154,@125–141.@2022@@Energy spillover; Energetic decoupling; Functional antenna size@NIES-3377@NIES3377@NIES-4696@NIES4696
3836@Miyagishimi, S., Tanaka, K.@The unicellular red alga Cyanidioschyzon merolae—The simplest model of a photosynthetic eukaryote.@Plant Cell Physiol.,@62,@926–941.@2021@@Cyanidiales; Cyanidioschyzon merolae; Photosynthetic eukaryotes; Red algae@NIES-3377@NIES3377@NIES-4696@NIES4696
3837@Tanaka, N., Mogi, Y., Fujiwara, T., Yabe, K., Toyama, Y., Higashiyama, T., Yoshida, Y.@CZON-cutter - a CRISPR-Cas9 system for multiplexed organelle imaging in a simple unicellular alga.@J. Cell Sci.,@134,@jcs258948 (article ID).@2021@@CRISPR-Cas9 gene editing; Multiplexed organelle imaging; Rhodophyta; Cyanidioschyzon merolae; Organelle division; Cell cycle@NIES-3377@NIES3377
3838@Pham, T.-L., Tran, T. H. Y., Shimizu, K., Li, Q., Utsumi, M.@Toxic cyanobacteria and microcystin dynamics in a tropical reservoir: assessing the influence of environmental variables.@Environ. Sci. Pollut. Res.,@28,@63544–63557.@2021@@Harmful algae bloom; Cyanotoxins; Real-time PCR; Sediment@NIES-101@NIES101@NIES-102@NIES102
3839@Sarasa-Buisán, C., Guío, J., Castro, C., Bes, M. T., Fillat, M. F., Peleato, M. L., Sevilla, E.@Contributions on lindane degradation by Microcystis aeruginosa PCC 7806.@Water,@14,@1219 (article ID).@2022@@Microcystis; lindane; linC; pesticides; bioremediation@NIES-843@NIES843
3840@Gao, S., Pittman, K., Edmundson, S., Huesemann, M., Greer, M., Louie, W., Chen, P., Nobles, D., Benemann, J., Crowe, B.@A newly isolated alkaliphilic cyanobacterium for biomass production with direct air CO₂ capture.@J. CO2 Util.,@69,@102399 (article ID).@2023@@Alkaliphilic cyanobacteria; Biomass; Raceway pond; Direct air capture@NIES-144@NIES144
3841@Zepernick, B. N., Gann, E. R., Martin, R. M., Pound, H. L., Krausfeldt, L. E., Chaffin, J. D., Wilhelm, S. W.@Elevated pH conditions associated with Microcystis spp. blooms decrease viability of the cultured diatom Fragilaria crotonensis and natural diatoms in Lake Erie.@Front. Microbiol.,@12,@598736 (article ID).@2021@@CyanoHABs; Lake Erie; biogenic silica; diatoms; lake alkalinity; microcystis blooms@NIES-843@NIES843
3842@Ishikawa, N. K., Takahashi, K., Sakakibara, T., Nomura, S., Ito, A.@Degradation of sulfamonomethoxine in solution using pulsed plasma discharge - identification of by-products and toxicity of treated solution to green algae.@Water Sci. Technol.,@86,@2430–2440.@2022@@acute toxic test; LC-MS/MS; Raphidocelis subcapitata; radical@NIES-35@NIES35
3843@Ishida, Y., Kimura, B., Nakahara, H., Kadota, H.@Analysis of major nutrient effecting Uroglena americana bloom in the Northern Lake Biwa, by use of algal bioassay.@Bull. Jpn. Soc. Sci. Fish.,@48,@1281-1287.@1982@@@NIES-395@NIES395
3844@Ishida, Y. & Kimura, B.@Photosynthetic phagotrophy of Chrysophyceae: evolutionary aspects.@Microbiological Sciences,@3,@132-135.@1986@@@NIES-395@NIES395
3845@@@@@@@@@NIES-395@NIES395
3846@Hirooka, S., Itabashi, T., Ichinose, T. M., Onuma, R., Fujiwara, T., Yamashita, S., Jong, L. W., Tomita, R., Iwane, A. H., Miyagishima, S.@Life cycle and functional genomics of the unicellular red alga Galdieria for elucidating algal and plant evolution and industrial use.@Proc. Natl. Acad. Sci. U. S. A.,@119,@e2210665119 (article ID).@2022@@Galdieria; sexual reproduction; homeobox; actin; microalgae@NIES-550@NIES550
3847@Chen, Y., González-Pech, R. A., Stephens, T. G., Bhattacharya, D., Chan, C. X.@Evidence that inconsistent gene prediction can mislead analysis of dinoflagellate genomes.@J. Phycol.,@56,@6-10.@2020@@@NIES-4077@NIES4077
3848@Kookal, S. K., Nawkarkar, P., Gaur, N. A., Kumar, S.@Bioremediation of ethanol wash by microalgae and generation of bioenergy feedstock.@J. Appl. Phycol.,@35,@183–194.@2022@@Biomass; Bioremediation; Melanoidin; Spent Wash; Ethanol distillery wastewater; Bioenergy; Circular Bioeconomy@NIES-2170@NIES2170
3849@Zhu, J., Tan, X., Hafid, H. S., Wakisaka, M.@A novel strategy to promote microalgal growth and lipid productivity by supplementation of lignin related phenolic elicitors.@Fuel,@334,@126775 (article ID).@2023@@Microalgae; Phenolic elicitors; Cell morphology; Photosynthesis; Lipids@NIES-48@NIES48
3850@Chambonniere, P., Ramírez-Romero, A., Dimitriades-Lemaire, A., Sassi, J.-E., Delrue, F.@Photosynthetic carbon uptake correlates with cell protein content during lipid accumulation in the microalga Chlorella vulgaris NIES 227.@FERMENTATION,@8,@614 (article ID).@2022@@microalgae; Chlorella vulgaris; photosynthesis; productivity; biofuel; lipid@NIES-227@NIES227
3851@Chatelain, P., Blanchard, C., Astier, J., Klinguer,A., Wendehenne, D., Jeandroz, S., Rosnoblet, C.@Reliable reference genes and abiotic stress marker genes in Klebsormidium nitens.@Sci Rep,@12,@18988 (article ID).@2022@@@NIES-2285@NIES2285
3852@Wang, H., Munke, A., Li, S., Tomaru, Y., Okamoto, K.@Structural insights into common and host-specific receptor-binding mechanisms in algal picorna-like viruses.@Viruses-Basel,@14,@2369 (article ID).@2022@@Marnaviridae; algal bloom; algal viruses; icosahedral viruses; ssRNA viruses@NIES-3713@NIES3713
3853@Shimizu, I., Yamashita, K., Tokunaga, E.@Development of a simple fabrication method for magnetic micro stir bars and induction of rotational motion in Chlamydomonas reinhardtii.@Micromachines,@13,@1842 (article ID).@2022@@magnetic micro stirrer bar; microchip; motion analysis; microalga; Chlamydomonas; neodymium magnet; flagella; orbital motion@NIES-2238@NIES2238
3854@Ramírez-Romero, A., Da Costa Magalhães, B., Dimitriades-Lemaire, A., Sassi, J.-F., Delrue, F., Steyer, J.-P.@Chlorellaceae feedstock selection under balanced nutrient limitation.@FERMENTATION,@8,@554 (article ID).@2022@@biofuel; microalgal biomass; Chlorella; lipids@NIES-2173@NIES2173@NIES-227@NIES227
3855@Nef, C., Madoui, M., Pelletier, É., Bowler, C.@Whole-genome scanning reveals environmental selection mechanisms that shape diversity in populations of the epipelagic diatom Chaetoceros.@PLoS. Biol.,@20,@e3001893 (article ID).@2022@@@NIES-3715@NIES3715
3856@Procházková, L., Matsuzaki, R., Řezanka, T., Nedbalová, L., Remias, D.@The snow alga Chloromonas kaweckae sp. nov. (Volvocales, Chlorophyta) causes green surface blooms in the High Tatras (Slovakia) and tolerates high irradiance.@J. Phycol.,@59,@236-248.@2023@@biodiversity; cryoflora; environmental sample; fatty acids; fluorometry; vegetative stages@NIES-2379@NIES2379@NIES-3753@NIES3753@NIES-4284@NIES4284@NIES-4476@NIES4476
3857@Suzuki, S., Ota, S., Yamagishi, T., Tuji, A., Yamaguchi, H., Kawachi, M.@Rapid transcriptomic and physiological changes in the freshwater pennate diatom Mayamaea pseudoterrestris in response to copper exposure.@DNA Res.,@29,@dsac037 (article ID).@2022@@Mayamaea pseudoterrestris; ecotoxicological test; metal toxicity; gliding motility; oxidative stress@NIES-4280@NIES4280
3858@Duque, P., Vieira, C. P., Vieira, J.@Advances in novel animal Vitamin C biosynthesis pathways and the role of prokaryote-based inferences to understand their origin.@Genes,@13,@1917 (article ID).@2022@@ascorbic acid; evolution; synthesis; aldonolactone oxidoreductases; insects; nematodes; prokaryotes@NIES-267@NIES267
3859@Saito, M., Watanabe, H., Sasaki, M., Ookubo, M., Yarita, T., Shiraiwa, M., Asayama, M.@Coproduction of lipids and carotenoids by the novel green alga Coelastrella sp. depending on cultivation conditions.@Biotech. Rep.,@37,@e00769 (article ID).@2023@@biorefinery; carotenoid; Coelastrella; dual production; lipid@NIES-144@NIES144
3860@Tran, H.-D., Ong, B.-N., Ngo, V.-T., Tran, D.-L., Nguyen, T.-C., Tran-Rhi, B.-H., Do, T.-T., Nguyen, T.-M.-L., Nguyen, X.-H., Melkonian, M.@New angled twin–layer porous substrate photobioreactors for cultivation of Nannochloropsis oculata.@Protist,@173,@125914 (article ID).@2022@@Nannochloropsis oculata; twin-layer porous substrate photobioreactor (TL-PSBR) systems; biomass; lipid LED@NIES-2145@NIES2145
3861@Lv, X., Cheng, Y., Zhang, S., Hu, Z., Xiao, P., Zhang, H., Geng, R., Renhui, L.@Polyphasic characterization and taxonomic evaluation of a bloom-forming strain morphologically Rresembling Radiocystis fernandoi (Chroococcales, Cyanobacteria) from Lake Erhai, China.@Diversity-Basel,@14,@816 (article ID).@2022@@bloom; Microcystis; phylogeny; polyphasic approach; Radiocystis fernandoi; taxonomy@NIES-102@NIES102@NIES-103@NIES103@NIES-111@NIES111
3862@Suzuki, S., Yamaguchi, H., Kawachi, M.@Potential genetic diversity of Synechococcus-related strains maintained in the Microbial Culture Collection of the National Institute for Environmental Studies, Japan.@Microb. Resour. Syst.,@38,@63-74.@2022@@Synechococcus; Cyanobium; picoplankton; molecular marker@NIES-981@NIES981@NIES-970@NIES970@NIES-971@NIES971@NIES-937@NIES937@NIES-1348@NIES1348@NIES-940@NIES940@NIES-941@NIES941@NIES-938@NIES938@NIES-939@NIES939@NIES-1341@NIES1341@NIES-1342@NIES1342@NIES-1343@NIES1343@NIES-1344@NIES1344@NIES-1345@NIES1345@NIES-1346@NIES1346@NIES-1347@NIES1347@NIES-972@NIES972@NIES-973@NIES973@NIES-974@NIES974@NIES-975@NIES975@NIES-976@NIES976@NIES-982@NIES982@NIES-986@NIES986@NIES-978@NIES978@NIES-979@NIES979@NIES-942@NIES942@NIES-946@NIES946@NIES-949@NIES949@NIES-961@NIES961@NIES-977@NIES977@NIES-943@NIES943@NIES-945@NIES945@NIES-953@NIES953@NIES-954@NIES954@NIES-957@NIES957@NIES-958@NIES958@NIES-959@NIES959@NIES-969@NIES969@NIES-987@NIES987@NIES-988@NIES988@NIES-985@NIES985@NIES-947@NIES947@NIES-960@NIES960@NIES-951@NIES951@NIES-962@NIES962@NIES-955@NIES955@NIES-956@NIES956@NIES-952@NIES952@NIES-963@NIES963@NIES-964@NIES964@NIES-965@NIES965@NIES-983@NIES983@NIES-950@NIES950@NIES-984@NIES984
3863@Sekimoto, H., Komiya, A., Tsuyuki, N., Kawai, J., Kanda, N., Ootsuki, R., Suzuki, Y., Toyoda, A., Fujiyama, A., Kasahara, M., Abe, J., Tsuchikane, Y., Nishiyama, T.@A divergent RWP-RK transcription factor determines mating type in heterothallic Closterium.@New Phytol.,@237,@1636-1651.@2023@@Closterium peracerosum-strigosum-littorale complex; mating type; RWP-RK; sex determination; sexual reproduction; streptophyta; Zygnematophyceae@NIES-67@NIES67@NIES-69@NIES69
3864@Guo, B., Lei, C., Kobayashi, H., Ito, T., Yalikun, Y., Jiang, Y., Tanaka, Y., Ozeki, Y., Goda. K.@High-throughput, label-free, single-cell, microalgal lipid screening by machine-learning-equipped optofluidic time-stretch quantitative phase microscopy.@Cytom. Part A,@91,@494-502.@2017@@@NIES-48@NIES48
3865@Khudzari, J., Fukuda, S., Shiraiwa, Y., Iwamoto, K.@Kinetic properties of ¹³⁷Cs uptake by the cesium‑accumulating eustigmatophycean microalga.@Environ. Sci. Pollut. Res.,@30,@34460–34467.@2022@@¹³⁷Cs; Radioactive cesium-accumulating mechanism; Cesium-accumulating microalgae; Vacuoliviride crystalliferum (eustigmatophyceae); Radiocesium phycoremediation@NIES-2860@NIES2860
3866@Kato, S., Misumi, O., Maruyama, S., Nozaki, H., Tsujimoto-Inui, Y., Takusagawa, M., Suzuki, S., Kuwata, Noda, S., Ito, N., Okabe, Y., Sakamoto, Yagisawa, Y., Matsunaga, M. T., Matsubayashi, Y., Yamaguchi, H., Kawachi, M., Kuroiwa, H., Kuroiwa, T., Matsunaga, S.@Genomic analysis of an ultrasmall freshwater green alga, Medakamo hakoo.@Commun. Biol.,@6,@89 (article ID).@2023@@@NIES-4000@NIES4000
3867@Ramírez-Romero, A., Martin, M., Boyer, A., Bolzoni, R., Matricon, L., Sassi, J.-F., Steyer, J.-P., Delrue, F.@Microalgae adaptation as a strategy to recycle the aqueous phase from hydrothermal liquefaction.@Bioresour. Technol.,@371,@128631 (article ID).@2023@@Microalgae adaptation; Adaptive laboratory evolution; Hydrothermal liquefaction; Aqueous phase recycling@NIES-227@NIES227
3868@Okuda, Y., Hiraiwa, M., Shimizu, N., Hashimoto, S.@Production of volatile organic iodine compounds by the marine cyanobacterium Calothrix parasitica under different light intensities.@Mar. Chem.,@248,@104211 (article ID).@2023@@Iodinated hydrocarbons; Halogenated hydrocarbons; Light effects; Phytoplankton@NIES-267@NIES267
3869@Hamana, K., Furuchi, T., Hayashi, H., Niitsu, M.@Additional polyamine analysis of algal chlorarachniophytes, euglenophytes, haptophytes, cryptophytes, dinoflagellates, chromerids and heterokontophytes. —Polyamine analysis of algae IV—@Microb. Resour. Syst.,@38,@51-62.@2022@@alga; chlorarachniophyte; chromerid; dinoflagellate; polyamine@NIES-47@NIES47@NIES-4391@NIES4391@NIES-4392@NIES4392@NIES-276@NIES276@NIES-48@NIES48@NIES-253@NIES253@NIES-286@NIES286@NIES-381@NIES381@NIES-387@NIES387@NIES-623@NIES623@NIES-624@NIES624@NIES-715@NIES715@NIES-741@NIES741@NIES-1443@NIES1443@NIES-2149@NIES2149@NIES-2584@NIES2584@NIES-2635@NIES2635@NIES-2677@NIES2677@NIES-2716@NIES2716@NIES-3745@NIES3745@NIES-4109@NIES4109@NIES-277@NIES277@NIES-282@NIES282@NIES-699@NIES699@NIES-706@NIES706@NIES-304@NIES304@NIES-463@NIES463@NIES-12@NIES12@NIES-331@NIES331@NIES-4280@NIES4280@NIES-2535@NIES2535@NIES-2728@NIES2728@NIES-3576@NIES3576@NIES-2351@NIES2351@NIES-2145@NIES2145@NIES-2588@NIES2588@NIES-2860@NIES2860@NIES-2146@NIES2146@NIES-2433@NIES2433@NIES-4060@NIES4060@NIES-274@NIES274
3870@Takagi, T., Aoyama, K., Motone, K., Aburaya, S., Yamashiro, H., Miura, N., Inoue, K.@Mutualistic interactions between dinoflagellates and pigmented bacteria mitigate environmental stress.@Microbiol. Spectr.,@11,@e0246422 (article ID).@2023@@@NIES-4077@NIES4077
3871@Xing, H., Li, Q., Zhao, Y., Gao, H., Li, L., Zhang, Y., Yu, X.@Exogenous proline boosts the co-accumulation of astaxanthin and biomass in stress-induced Haematococcus pluvialis.@Bioresour. Technol.,@369,@128488 (article ID).@2023@@Haematococcus pluvialis; Proline; Biomass; Astaxanthin productivity; Abiotic stresses@NIES-144@NIES144@NIES-797@NIES797@NIES-712@NIES712
3872@McGregor, G. B., Sendall, B. C., Niiyama, Y., Tuji, A., Willis, A.@Chrysosporum ovalisporum is synonymous with the true-branching cyanobacterium Umezakia natans (Nostocales/Aphanizomenonaceae).@J. Phycol.,@59,@326-341.@2023@@@NIES-21@NIES21@NIES-26@NIES26@NIES-2665@NIES2665@NIES-3585@NIES3585@NIES-4490@NIES4490@NIES-4103@NIES4103
3873@Sekimoto, H.@Speciation and reproductive isolation in unicellular charophycean alga, Closterium peraceroum-strigosum-littorale complex.@IFO Res. Commun.,@26,@71-85 (in Japanese with English summary).@2012@@Closterium: heterothallism; homothallism; reproductive isolation; sex pheromone@NIES-68@NIES68@NIES-58@NIES58@NIES-59@NIES59@NIES-60@NIES60@NIES-61@NIES61@NIES-62@NIES62@NIES-63@NIES63@NIES-64@NIES64@NIES-65@NIES65@NIES-67@NIES67@NIES-69@NIES69@NIES-70@NIES70@NIES-261@NIES261@NIES-4548@NIES4548@NIES-4551@NIES4551
3874@Kolisko, M., Silberman, J. D., Cepicka, I., Yubuki, N., Takishita, T., Yabuki, A., Leander, B. S., Inouye, I., Inagaki, Y., Roger, A., Simpson, A. G. B.@A wide diversity of previously undetected free-living relatives of diplomonads isolated from marine/saline habitats.@Environ. Microbiol.,@12,@2700-2710.@2010@@@NIES-1968@NIES1968
3875@Yubuki, N., Simpson, A. G. B., Leander, B.@Comprehensive ultrastructure of Kipferlia bialata provides evidence for character evolution within the Fornicata (Excavata).@Protist,@164,@423-439.@2013@@Carpediemonas-like organisms; cell division; cytoskeleton; flagellar apparatus; microtubules; ultrastructure@NIES-1968@NIES1968
3876@Takishita, K., Yubuki, N., Kakizoe, N., Inagaki, Y., Maruyama, T.@Diversity of microbial eukaryotes in sediment at a deep-sea methane cold seep: surveys of ribosomal DNA libraries from raw sediment samples and two enrichment cultures.@Extremophiles,@11,@563–576.@2007@@Cultivation; Diversity; Methane seep; Microbial eukaryotes; SSU rDNA@NIES-1968@NIES1968
3877@Takishita, K., Kolisko, M., Komatsuzaki, H., Yubuki, N., Inagaki, Y., Cepicka, I., Smejkalová, P., Silberman, J. D., Hashimoto, T., Roger, A. J., Simpson, A. G. B.@Multigene phylogenies of diverse Carpediemonas-like organisms identify the closest relatives of ‘amitochondriate’ diplomonads and retortamonads.@Protist,@163,@344-355.@2012@@Carpediemonas-like organisms; diplomonads; Excavata; hydrogenosomes; mitochondria; mitosomes@NIES-1968@NIES1968
3878@Tanifuji, G., Takabayashi, S., Kume, K., Takagi, M., Nakayama, T., Kamikawa, R., Inagaki, Y., Hashimoto, T.@The draft genome of Kipferlia bialata reveals reductive genome evolution in fornicate parasites.@PLoS One,@13,@e0194487 (article ID).@2018@@@NIES-1968@NIES1968
3879@Joun, J., Sirohi, R., Sim, S. J.@The effects of acetate and glucose on carbon fixation and carbon utilization in mixotrophy of Haematococcus pluvialis.@Bioresour. Technol.,@367,@128218 (article ID).@2023@@Haematococcus pluvialis; Mixotrophy; Sodium acetate; Glucose; Mixotrophic metabolism@NIES-144@NIES144
3880@Ma, H., Zheng, J., Li, Y., Zhao, L., Zou, S., Hu, Q., Ha,n D.@A novel bifunctional wax ester synthase involved in early triacylglycerol accumulation in unicellular green microalga Haematococcus pluvialis under high light stress.@Front. Bioeng. Biotechnol.,@9,@794714 (article ID).@2022@@triacylglycerol; wax synthase; microalgae; bifunctional; Haematococcus pluvialis; biotechnological application@NIES-144@NIES144
3881@Harada, K.@Elucidation of phenomena involving cyanobacteria in freshwater ecosystem by chemically ecological approach.@YAKUGAKU ZASSHI,@142,@39-64 (in Japanese with English summary).@2022@@chemical ecology; water bloom, β-cyclocitral, density stress, quorum sensing@NIES-102@NIES102@NIES-843@NIES843@NIES-298@NIES298
3882@Tang, T., Liu, X., Yuan, Y., Zhang, T., Kiya, R., Suzuki, K., Tanaka, Y., Li, M., Hosokawa, Y., Yalikum, Y.@Impedance-based tracking of the loss of intracellular components in microalgae cells.@Sens. Actuator B-Chem.,@358,@131514 (article ID).@2022@@Chloroplasts; Impedance cytometry; Interior components loss; Intracellular analysis; Single cell analysis@NIES-48@NIES48
3883@Lindley, M., Gala de Pablo, J., Peterson, W., Isozaki, A., Hiramatsu, K., Goda, K.@High-throughput raman-activated cell sorting in the fingerprint region.@Adv. Mater. Technol.,@7,@2101567 (article ID).@2022@@@NIES-48@NIES48@NIES-2175@NIES2175@NIES-4141@NIES4141
3884@Hou, X., Yan, Y., Wang, Y., Jiang, T., Zhang, X., Dai, X., Igarashi, Y., Luo, F., Yang, C.@An insight into algicidal characteristics of Bacillus altitudinis G3 from dysfunctional photosystem and overproduction of reactive oxygen species.@Chemosphere,@310,@136767 (article ID).@2023@@Harmful cyanobacterial blooms; Photosynthesis; Electron transfer; ROS@NIES-843@NIES843
3885@Tuji, A., Niiyama, Y., Ichise, S.@Distribution and phylogeny of Dolichospermum hangangense (Nostcales, Cyanobacteria) found in Japanese lakes and reservoirs.@Bull. Natl. Mus. Nat. Sci., Ser. B,@49,@83-95.@2023@@Dolichospermum circinale; Dolichospermum hangangense; distribution; phylogeny, Japan@NIES-1683@NIES1683@NIES-80@NIES80@NIES-1650@NIES1650@NIES-1651@NIES1651@NIES-822@NIES822@NIES-820@NIES820@NIES-808@NIES808@NIES-1682@NIES1682@NIES-811@NIES811@NIES-823@NIES823@NIES-1908@NIES1908@NIES-1877@NIES1877@NIES-1680@NIES1680
3886@Sun, L., Zhang, W., Li, B., Tan, X., Zhang, Z., Hong, W.@Study on treatment of cyanobacterial bloom by UV-C/KMnO4 advanced oxidation.@Environ. Resour. Ecol. J.,@6,@10-15.@2022@@UV-C/KMnO4; Advanced Oxidation; Cyanobacterial Bloom@NIES-843@NIES843
3887@Mao, J. F., Li, W., Liu, X., He, Y., Gin, K. Y.-H.@Responses of cyanobacterium Microcystis aeruginosa under single and repeated ofloxacin exposure.@Ecotox. Environ. Safe.,@253,@114668 (article ID).@2023@@Ofloxacin; Toxicity; Flow cytometry; Microcystis aeruginosa; Repeated exposure@NIES-843@NIES843
3888@Ferrari, C., Proost, S., Janowski, M., Becker, J., Nikoloski, Z., Bhattacharya, D., Price, D., Tohge, T., Bar-Even, A., Fernie, A., Stitt, M., Mutwil, M.@Kingdom-wide comparison reveals the evolution of diurnal gene expression in Archaeplastida.@Nat. Commun.,@10,@737 (article ID).@2019@@@NIES-2285@NIES2285
3889@Tansley, C., Houghton, J., Rose, A. M. E., Witek, B., Payet, R. D., Wu, T., Miller, J. B.@CIPK-B is essential for salt stress signalling in Marchantia polymorpha.@New Phytol.,@237,@2210-2223.@2023@@calcineurin B-like protein; calcium signalling; CBL-interacting protein kinase; evolution; liverwort; Marchantia polymorpha; salt stres@NIES-2285@NIES2285
3890@Kondo, S., Hori, K., Sasaki-Sekimoto, Y., Kobayashi, A., Kato, T., Yuno-Ohta, N., Nobusawa, T., Ohtaka, K., Shimojima, M., Ohta, H.@Primitive extracellularlipid components on the surface of the charophytic alga Klebsormidium flaccidum and their possible biosynthetic pathways as deduced from the genome sequence.@Front. Plant Sci.,@7,@952 (article ID).@2016@@Klebsormidium flaccidum; Chlamydomonas reinhardtii; Arabidopsis thaliana; extracellular lipids; polyester backbone; wax; cuticle@NIES-2285@NIES2285
3891@Nazipova, A., Makshakova, O., Kozlova, L.@The in silico characterization of monocotyledonous α-L-Arabinofuranosidases on the example of maize.@Life-Basel,@13,@266 (article ID).@2023@@α-L-arabinofuranosidase; arabinoxylan; maize; homology modeling; molecular docking@NIES-2285@NIES2285
3892@Giordano, M., Goodman, C. A., Huang, F., Raven, J. A., Ruan, Z.@A mechanistic study of the influence of nitrogen and energy availability on the NH₄⁺ sensitivity of nitrogen assimilation in Synechococcus.@J. Exp. Bot.,@73,@5596-5611.@2022@@Ammonium; cyanobacteria; glutamine synthetase; limitation; nitrate reductase; nitrite reductase; NtcA regulation; N metabolism@NIES-981@NIES981@NIES-970@NIES970@NIES-3709@NIES3709@NIES-3757@NIES3757@NIES-2481@NIES2481@NIES-2549@NIES2549@NIES-843@NIES843@NIES-4074@NIES4074@NIES-25@NIES25@NIES-50@NIES50@NIES-2107@NIES2107@NIES-267@NIES267@NIES-3754@NIES3754@NIES-2135@NIES2135@NIES-2134@NIES2134@NIES-204@NIES204@NIES-3756@NIES3756
3893@Dulić, T., Svirčev, Z., Palanački Malešević, T., Faassen, E. J., Savela, H., Hao, Q., Meriluoto, J.@Assessment of common cyanotoxins in cyanobacteria of biological loess crusts.@Toxins,@14,@215 (article ID).@2022@@cyanotoxins; biocrusts; loess; terrestrial cyanobacteria; sedimentary biosignatures; land restoration@NIES-107@NIES107
3894@Nozaki, H., Mori, F., Tanaka, Y., Matsuzaki, R., Yamashita, S., Yamaguchi, H., Kawachi, K.@Cryopreservation of two species of the multicellular volvocine green algal genus Astrephomene.@BMC Microbiol.,@23,@16 (article ID).@2023@@Asexual cycle; Astrephomene; Cryopreservation; Cryoprotectant; Culture collection; Volvocine green algae@NIES-4017@NIES4017@NIES-854@NIES854@NIES-418@NIES418@NIES-419@NIES419@NIES-564@NIES564@NIES-565@NIES565@NIES-628@NIES628@NIES-853@NIES853@NIES-855@NIES855
3895@Kinegawa, R., Gala de Pablo, J., Wang, Y., Hiramatsu, K., Goda, K.@Label-free multiphoton imaging flow cytometry.@Cytom. Part A,@,@584-592.@2023@@@NIES-2175@NIES2175
3896@Tamre, E. & Fournier, G. P.@Inferred ancestry of scytonemin biosynthesis proteins in cyanobacteria indicates a response to Paleoproterozoic oxygenation.@Geobiology,@20,@764–775.@2022@@Bayesian phylogenetics; cyanobacteria; Paleoproterozoic; photoprotection; scytonemin; UVA radiation@NIES-21@NIES21@NIES-23@NIES23@NIES-25@NIES25@NIES-26@NIES26@NIES-267@NIES267@NIES-2111@NIES2111@NIES-4073@NIES4073@NIES-4074@NIES4074@NIES-4075@NIES4075@NIES-2108@NIES2108@NIES-4103@NIES4103@NIES-3756@NIES3756
3897@Tang, T., Liu, X., Yuan, Y., Zhang, T., Kiya, R., Yang, Y., Suzuki, K., Tanaka, Y., Li, M., Hosokawa, Y., Yalikum, Y.@Assessment of the electrical penetration of cell membranes using four-frequency impedance cytometry.@Microsyst. Nanoeng.,@8,@68 (article ID).@2022@@@NIES-48@NIES48
3898@Wong, D. K., Grisdale, C. J., Slat, V. A., Rader, S. D., Fast, N. M.@The evolution of pre-mRNA splicing and its machinery revealed by reduced extremophilic red algae.@J. Eukaryot. Microbiol.,@70,@e12927 (article ID).@2023@@Cyanidiales; intron; spliceosome; transcriptome@NIES-1332@NIES1332@NIES-4696@NIES4696
3899@Lee, S.-A., Kim, M., Esterhuizen, M., Le, V. V., Kang, M., o, S.-R., Oh, H.-M., Kim, Y. J., Ahn, C.-Y.@An acceleration of carotenoid production and growth of Haematococcus lacustris induced by host-microbiota network interaction.@Microbiol. Res.,@262,@127097 (article ID).@2022@@Haematococcus lacustris; Astaxanthin; NGS; Phycosphere@NIES-144@NIES144
3900@Seto, K., Nakada, T., Tanabe, Y., Yoshida, M., Kagami, M.@Aphelidium parallelum, sp. nov., a new aphelid parasitic on selenastracean green algae.@Mycologia,@114,@544-555.@2022@@Aphelida; Aphelidiomycota; molecular phylogeny; parasitoid; ultrastructure; 1 new taxon@NIES-35@NIES35@NIES-385@NIES385@NIES-2193@NIES2193@NIES-2195@NIES2195@NIES-4214@NIES4214
3901@Hazraty-Kari, S., Masaya, M., Kawachi, M., Harii, S.@The early acquisition of symbiotic algae benefits larval survival and juvenile growth in the coral Acropora tenuis.@J. Exp. Zool. Part A-Ecol. Integr. Physiol.,@337,@559-565.@2022@@juveniles; larvae; lipids; scleractinia; symbionts@NIES-2907@NIES2907
3902@Mahadi, R., Vahisan, L. P. S., Ilhamsyah, D. P. A., Kim, S., Kim, B., Lee, N., Oh, Y.-K.@Enhancement of astaxanthin and fatty acid production in Haematococcus pluvialis using strigolactone.@Appl. Sci.-Basel,@12,@1791 (article ID).@2022@@strigolactone; Haematococcus pluvialis; astaxanthin; fatty acid; phytohormone; rac-GR24@NIES-144@NIES144
3903@Valadez-Cano, C., Hawkes, K., Calvaruso, R., Reyes-Prieto, A., Lawrence, J.@Amplicon-based and metagenomic approaches provide insights into toxigenic potential in understudied Atlantic Canadian lakes@Facets,@7,@194-214.@2022@@Toxic cyanobacteria; toxic blooms, cyanotoxins; microcystin; Microcystis aeruginosa; bioactive metabolites@NIES-843@NIES843@NIES-2549@NIES2549
3904@Yoshino, T., Mao, Y., Maeda, Y., Negishi, R., Murata, S., Moriya, S., Shimada, H., Arakaki, A., Kobayashi, K., Hagiwara, Y., Okamoto, K., Tanaka, T.@Single-cell genotyping of phytoplankton from oceanwater by gel-based cellmanipulation.@Biotechnol. J.,@17,@2100633 (article ID).@2022@@gel-based cell manipulation; microcavity array; phytoplankton; single-cell; whole genome amplificatio@NIES-144@NIES144@NIES-385@NIES385@NIES-2145@NIES2145
3905@Fitriyah, F., Faramitha, Y., Sari, D. A., Kresnawaty, I., Panji, T., Santoso, D.@Improved direct lysis PCR amplification method of microalgal culture for sequencing and species identification.@IOP Conf. Ser.: Earth Environ. Sci.,@948,@012013 (article ID).@2021@@@NIES-2587@NIES2587
3906@Chia, M. A., Ameh, I., George, K. C., Balogun, E. O., Akinyemi, S. A., Lorenzi, A. S.@Genetic diversity of microcystin producers (cyanobacteria) and microcystin congeners in aquatic resources across Africa: A review paper.@Toxins,@10,@772 (article ID).@2022@@biological risk; cyanobacteria; cyanotoxin; water supply; African continent; molecular markers; mcy genes@NIES-89@NIES89@NIES-102@NIES102@NIES-843@NIES843@NIES-298@NIES298
3907@Shiraishi, H. & Nishida, H.@Complete genome sequence of the edible filamentous cyanobacterium Arthrospira platensis NIES-39, based on long-read sequencing.@Microbiol. Resour. Ann.,@12,@e0113922 (article ID).@2023@@@NIES-39@NIES39
3908@Ota, S., Yoshimura, K., Kosugi, C., Kawano, S.@Taxonomic and physiological studies of Parachlorella kimitsuensis sp. nov. (Trebouxiophyceae), which shows high ammonium tolerance.@Algal Res.,@71,@103054 (article ID).@2023@@Chlorella; Halophiles; High ammonium; Parachlorella, Parachlorella kimitsuensis sp. nov.; Remediation; Steelmaking wastewater treatment@NIES-2152@NIES2152@NIES-2169@NIES2169@NIES-2273@NIES2273@NIES-2275@NIES2275
3909@Takahashi, Y., Shimamoto, K., Toyokawa, C., Suzuki, K., Osanai, T.@Gravity sedimentation of eukaryotic algae Euglena gracilis accelerated by ethanol cultivation.@Appl. Microbiol. Biotechnol.,@107,@3021–3032.@2023@@Ethanol; Euglena gracilis; Microalgae; Sedimentation@NIES-48@NIES48
3910@Nagao, R., Ueno, Y., Furutani, M., Kato, K., Shen, J.-R., Akimoto, S.@Biochemical and spectroscopic characterization of PSI‑LHCI from the red alga Cyanidium caldarium.@Photosynth. Res.,@156,@315–323.@2023@@Cyanidium caldarium; Excitation-energy transfer; PSI-LHCI; Red algae@NIES-2137@NIES2137
3911@Park, S. I., Cho, C. H., Ciniglia, C., Huang, T.-Y., Liu, S.-L., Bustamante, D. E., Calderon, M. S., Mansilla, A., McDermott, T., Andersen, R. A., Yoon, H. S.@Revised classification of the Cyanidiophyceae based on plastid genome data with descriptions of the Cavernulicolales ord. nov. and Galdieriales ord. nov. (Rhodophyta).@J. Phycol.,@59,@444-466.@2023@@“cave Cyanidium”; Cyanidiales; organelle genome; phylogeny; Rhodophyta; taxonomy@NIES-3638@NIES3638
3912@Liu, J., Zhang, M., Huang, Z., Fang, J., Wang, Z., Zhou, C., Qiu, X.@Diversity, biosynthesis and bioactivity of aeruginosins, a family of cyanobacteria-derived nonribosomal linear tetrapeptides.@Mar. Drugs,@21,@217 (article ID).@2023@@aeruginosins; Choi; biogenesis; structural diversity; nonribosomal polypeptide synthesis; serine protease inhibitory activity@NIES-98@NIES98@NIES-298@NIES298@NIES-101@NIES101@NIES-89@NIES89@NIES-205@NIES205
3913@Leblond, J. D., Hollingsworth, B. E., Ayoub, D., Mckinnon, M. B., Myers, C. S., Busari, T. J., Sabir, K.@Galactolipid composition of the star-shaped dinoflagellate Asterodinium gracile (Kareniaceae): presence of hexadecatetraenoic acid (16:4(n-3))-containing monogalactosyldiacylglycerol as the predominant galactolipid and chemotaxonomic closeness to Karenia mikimotoi as the only other known Kareniacean producer of this fatty acid.@Phycol. Res.,@71,@135-139.@2023@@Asterodinium; chloroplast; dinoflagellate; Dinophyceae; Kareniaceae; lipid@NIES-4329@NIES4329
3914@Decelle, J., Probert, I., Bittner, L., Not, F.@An original mode of symbiosis in open ocean plankton.@Proc. Natl. Acad. Sci. U. S. A.,@109,@18000-18005.@2012@@@NIES-388@NIES388@NIES-1396@NIES1396
3915@Shikata, T., Kitatsuji, S., Yuasa, K.@Strain, cell density, and nutrient condition affect patterns of diurnal vertical migration and superoxide production in a red-tide alga.@Front. Cell. Dev. Biol.,@11,@1134227 (article ID).@2023@@@NIES-1@NIES1
3916@Ok, J. H., Jeong, H. J., Lim, A. S., Kang, H. C., You, J. H., Park, S. A., Eom, S. H.@Lack of mixotrophy in three Karenia species and the prey spectrum of Karenia mikimotoi (Gymnodiniales, Dinophyceae).@Algae,@38,@39-55.@2023@@feeding; harmful algal bloom; Kareniaceae; lysis; protist; red tide; trophic mode@NIES-4541@NIES4541
3917@Inaba, K., Hiraka, K., Kumagai, K., Hokura, A.@Tellurium nanorods produced by the reduction of tellurate and tellurite inside unicellular algae.@Chem. Lett.,@52,@284-288.@2023@@Tellurium nanorod; Unicellular alga; X-ray analyses@NIES-2713@NIES2713
3918@Chiba, Y., Nakamura. I., Ishihara, K., Seko, T., Ishigami, T.@Effects of dietary n-3/n-6 fatty acid content on post-operative adhesions in myocardial infarction mice.@Clin. Nutr. Open Sci.,@49,@88-100.@2023@@fatty acid; n-3/n-6; diet; myocardial infarcted mouse; adhesion@NIES-3737@NIES3737
3919@Chen, K., Tanaka, H., Takeda, F., Ebie, Y., Yamazaki, H.@Evaluation of algal growth inhibition of effluents for treated water from tandoku-syori and gappei-syori johkasou using the WET method.@J. Water Environ. Technol.,@21,@141-150.@2023@@whole effluent toxicity; drainage management; Raphidocelis subcapitata; johkasou@NIES-35@NIES35
3920@Sato, T., Ishihara, K., Shimizu, T., Aoya, S., Yoshida, M.@Laboratory scale culture of early-stage Kuruma shrimp Marsupenaeus japonicus Larvae Fed on Thraustochytrids Aurantiochytrium and Parietichytrium.@J. Shellfish Res.,@37,@571-579.@2018@@@NIES-3737@NIES3737
3921@Rubiyatno, Matsui, T., Mori, K., Toyama, T.@Paramylon production by Euglena gracilis via mixotrophic cultivation using sewage effluent and waste organic compounds.@Bioresour. Technol. Reports,@15,@100735 (article ID).@2021@@@NIES-48@NIES48
3922@Hang, L. T., Mori, K., Toyama, T.@Enhanced biomass and lipid production capacity of Chlamydomonas reinhardtii under mixotrophic cultivation using sewage effluent and waste molasses.@Jpn. J. Water Treat. Biol., @56,@57-66.@2020@@Chlamydomonas reinhardtii; lipid production; mixotrophy; sewage effluent; organic waste@NIES-2235@NIES2235
3923@Takada, S., Tanaka, Y., Kumagai, K., Kobayashi, K., Hokura, A., Ogra, Y.@Formation of biogenic tellurium nanorods in unicellular green alga Chlamydomonas reinhardtii.@Metallomics,@14,@mfac089 (article ID).@2022@@tellurium; biogenic nanorod; Chlamydomonas reinhardtii; single-particle ICP-MS; electron microscopy; bioremediation@NIES-2463@NIES2463
3924@Tounosu, N., Sesoko, K., Hori, K., Shimojima, M., Ohta, H.@Cis‑regulatory elements and transcription factors related to auxin signaling in the streptophyte algae Klebsormidium nitens.@Sci Rep,@13,@9635 (article ID).@2023@@@NIES-2285@NIES2285
3925@Dahedl, E. K. & Urakawa, H.@Differential effects of hydrogen peroxide and L-lysine treatments on the growth of freshwater Cyanophyta and Chlorophyta.@Ecologies,@4,@355-370.@2023@@hydrogen peroxide; L-lysine; algaecide; Microcystis aeruginosa; cyanobacteria@NIES-88@NIES88@NIES-102@NIES102@NIES-843@NIES843@NIES-4325@NIES4325
3926@Ishitani, Y., Ciacci, C., Ujiié, Y., Tame, A., Tiboni, M., Tanifuji, G., Inagaki, Y., Frontalini, F.@Fascinating strategies of marine benthic organisms to cope with emerging pollutant: Titanium dioxide nanoparticles.@Environ. Pollut.,@330,@121538 (article ID).@2023@@Marine pollution; Foraminifera; Mucus; Reactive oxygen species; Transcriptome@NIES-2257@NIES2257
3927@Takahashi, K., Suzuki, S., Kawai-Toyooka, H., Yamamoto, K., Hamaji, T., Ootsuki, R., Yamaguchi, H., Kawachi, M., Higashiyama, T., Nozaki, H.@Reorganization of the ancestral sex-determining regions during the evolution of trioecy in Pleodorina starrii.@Commun. Biol.,@6,@590 (article ID).@2023@@@NIES-4480@NIES4480@NIES-4482@NIES4482@NIES-1363@NIES1363@NIES-4481@NIES4481@NIES-4479@NIES4479
3928@Moia, I. C., Pereira, S. B., Domizio, P., De Philippis, R., Adessi, A.@Phormidium ambiguum and Leptolyngbya ohadii exopolysaccharides under low water availability.@Polymers,@15,@1889 (article ID).@2023@@EPS monosaccharidic composition; water deprivation; soil restoration; dehydration; biocrusts; biofilms@NIES-2121@NIES2121
3929@Xiao, C. Guo, N., Liang, Z., Huang, Z., Li, W., Xie, M., Zhao, F.@Ultrafast energy transfer dynamics in a cyanobacterial light-harvesting phycobilisome.@Processes,@11,@1656 (article ID).@2023@@light-harvesting antenna; phycobilisomes; time-resolved spectroscopy; energy transfer@NIES-2134@NIES2134
3930@Natori, N., Kuwata, M., Tanaka, K., Toda, T.@Plankton survey method based on scanning electron microscopy.@Bull. Plankton Soc. Japan,@70,@1-9 (in Japanese with English summary).@2023@@whole effluent toxicity; drainage management; Raphidocelis subcapitata; johkasou@NIES-2173@NIES2173
3931@Hamana, K., Furuchi, T., Hayashi, H., Uemura, T., Niitsu, M.@Additional polyamine analysis of the algae belonging to the phyla Glaucophyta, Rhodophyta and Chlorophyta. ─Polyamine analysis of algae V─@Microb. Resour. Syst.,@39,@33-40.@2023@@alga; Chlorophyta; Glaucophyta; polyamine; Rhodophyta@NIES-226@NIES226@NIES-250@NIES250@NIES-254@NIES254@NIES-550@NIES550@NIES-551@NIES551@NIES-626@NIES626@NIES-1298@NIES1298@NIES-1332@NIES1332@NIES-1703@NIES1703@NIES-1836@NIES1836@NIES-2137@NIES2137@NIES-2163@NIES2163@NIES-2164@NIES2164@NIES-2165@NIES2165@NIES-2166@NIES2166@NIES-2252@NIES2252@NIES-2353@NIES2353@NIES-2894@NIES2894@NIES-3377@NIES3377@NIES-3645@NIES3645@NIES-3867@NIES3867@NIES-3891@NIES3891@NIES-3892@NIES3892@NIES-4107@NIES4107@NIES-4390@NIES4390@NIES-4452@NIES4452@NIES-4696@NIES4696
3932@Davison, J. R., Rajwani, R., Zhao, G., Bewley, C. A.@The genome of antibiotic-producing colonies of the Pelagophyte alga Chrysophaeum taylorii reveals a diverse and non-canonical capacity for secondary metabolism.@Sci Rep,@13,@11944 (article ID).@2023@@@NIES-1699@NIES1699
3933@Pang, X., Nawrocki, W. J., Cardol, P., Zheng, M., Jiang, J., Fang, Y., Yang, W., Croce, R., Tian, L.@Weak acids produced during anaerobic respiration suppress both photosynthesis and aerobic respiration.@Nat. Commun.,@14,@4207 (article ID).@2023@@@NIES-2499@NIES2499
3934@Hano, T. & Tomaru, Y.@Chronological age-related metabolome responses in the dinoflagellate Karenia mikimotoi, can predict future bloom demise.@Commun. Biol.,@6,@273 (article ID).@2023@@@NIES-3715@NIES3715
3935@Liu, Y. & Wei, D.@Enhancing carbon dioxide fixation and co-production of protein and lutein in oleaginous Coccomyxa subellipsoidea by a stepwise light intensity and nutrients feeding strategy.@Bioresour. Technol.,@376,@28885 (article ID).@2023@@Coccomyxa subellipsoidea; CO₂ fixation; Protein; Lutein; Stepwise feeding@NIES-2166@NIES2166
3936@Li, Z.-M., Hu, Z., Wang, X., Chen, S., Yu, W., Liu, J., Li, Z.@Biochemical and Structural Insights into a Thiamine Diphosphate-Dependent α-Ketoglutarate Decarboxylase from Cyanobacterium Microcystis aeruginosa NIES-843.@Int. J. Mol. Sci.,@24,@12198 (article ID).@2023@@α-ketoglutarate decarboxylase; Microcystis aeruginosa; biochemical characterization; structural modeling@NIES-843@NIES843
3937@Charvet, S., Bock, N. A., Kim, E., Duhamel, S.@Transcriptomics reveal a unique phago-mixotrophic response to low nutrient concentrations in the prasinophyte Pterosperma cristatum.@ISME Commun.,@4,@ycae083 (article ID).@2024@@phagotrophy; mixoplankton; bacterivory; prasinophyte; geneexpression@NIES-626@NIES626
3938@Almeida, A. V. M., Vaz, M. G. M. V., de Castro, N. V., Genuário, D. B., Oder, J. C., de Souza, P. A. M., Martins, S. B., Machado, M., Nunes-Nesi, A., Araújo, W. L.@How diverse a genus can be: An integrated multi-layered analysis into Desmonostoc (Nostocaceae, Cyanobacteriota).@Syst. Appl. Microbiol.,@46,@126422 (article ID).@2023@@Diversity; Growth; Metabolism; Nif genes; Physiology; Phylogeny@NIES-25@NIES25@NIES-2107@NIES2107@NIES-2094@NIES2094@NIES-28@NIES28
3939@Lee, A. K., Wei, J. H., Welander, P. V.@De novo cholesterol biosynthesis in bacteria.@Nat. Commun.,@14,@2904 (article ID).@2023@@@NIES-4105@NIES4105
3940@Tamaki, S., Koshitsuka, Y., Miyamoto, K., Ishikawa, T., Shinomura, T.@Chemical and genetic carotenoid deficiency delays growth in dark-grown Euglena gracilis.@Biosci. Biotechnol. Biochem.,@87,@491-500.@2023@@Euglena gracilis; carotenoid; norflurazon; dark acclimation; posttranscriptional regulation@NIES-48@NIES48
3941@Yamaguchi, H., Sumida, N., Matsukawa, K., Adachi, M., Tomaru, Y., Ishikawa, K., Hotta, J.@Establishment of a simple method for cryopreservation of the marine diatoms, Chaetoceros and Phaeodactylum.@J. Appl. Phycol.,@33,@2285–2293.@2023@@CELLBANKER; Cryopreservation; Marine diatoms; Chaetoceros tenuissimus; Phaeodactylum tricornutum; Transgenic diatom@NIES-3714@NIES3714@NIES-3715@NIES3715@NIES-324@NIES324
3942@Balloo, N., Mehjabin, J. J., Phan, C.-S., Okino, T.@Heat shock and iron limitation modulate the metabolic profile of the cyanobacterium Microcystis aeruginosa NIES-88.@Phycol. Res.,@71,@200-208.@2023@@argicyclamide; metabolomics; microcystin; OSMAC@NIES-88@NIES88
3943@Wetterwald, L., Leybros, A., Fleury, G., Delrue, F., Dimitriades-Lemaire, A., Chambonniere, P., Hertz, A.@Supercritical CO₂ extraction of neutral lipids from dry and wet Chlorella vulgaris NIES 227 microalgae for biodiesel production.@J. Environ. Chem. Eng.,@11,@ (article ID).@2023@@@NIES-227@NIES227
3944@Velmurugan, A. & Muthukaliannan, G. K.@Homologous and heterologous expression of phytoene synthase gene in marine microalgae Dunaliella salina and its potential as aquaculture feed.@Aquac. Int.,@31,@3125–3144.@2023@@Dunaliella salina; Phytoene synthase; Overexpression; Electroporation; β-carotene@NIES-144@NIES144
3945@Pietramellara, G.@Mechanisms involved in exopolymers (exopolysaccharides and exoproteins) secretion in biocrust and biofilm forming cyanobacteria as a response to dehydration.@PhD thesis, Università degli Studi di Firenze, Italy,@@135 pp. @2023@@@NIES-1956@NIES1956@NIES-2121@NIES2121
3946@Christodoulou, M., Wahlsten, M., Sivonen, K.@Morphological and Molecular Evaluation of Pseudanabaena epilithica sp. nov. and P. suomiensis sp. nov. (Pseudanabaenaceae, Cyanobacteria) from Finland.@Diversity-Basel,@15,@909 (article ID).@2023@@Pseudanabaena; cyanobacteria; polyphasic approach; 16S rRNA gene; 16S–23S ITS; Finland@NIES-512@NIES512@NIES-4062@NIES4062@NIES-4063@NIES4063@NIES-4065@NIES4065@NIES-4237@NIES4237@NIES-4238@NIES4238@NIES-4064@NIES4064
3947@Hongo, Y., Hano, T., Yamaguchi, H., Tamaru, Y.@Transcriptional responses of the marine diatom Chaetoceros tenuissimus to phosphate deficiency.@Gene,@884,@147695 (article ID).@2023@@Phosphorus-deficiency; Differentially expressed genes; RNA-seq; Nonphospholipid; Alkaline phosphatase; Diatom@NIES-3715@NIES3715
3948@Arsın, S., Delbaje, E., Jokela, J., Wahlsten, M., Farrar, Z. M., Permi, P., Fewer, D.@A plastic biosynthetic pathway for the production of structurally distinct microbial sunscreens.@ACS Chem. Biol.,@18,@1959–1967.@2023@@@NIES-2111@NIES2111@NIES-2107@NIES2107@NIES-2100@NIES2100@NIES-25@NIES25@NIES-73@NIES73@NIES-4105@NIES4105@NIES-3974@NIES3974@NIES-267@NIES267@NIES-4073@NIES4073@NIES-4106@NIES4106@NIES-3757@NIES3757@NIES-4102@NIES4102@NIES-3755@NIES3755@NIES-2130@NIES2130@NIES-2109@NIES2109@NIES-4103@NIES4103@NIES-3756@NIES3756
3949@Yamamoto, K., Matsuzaki, R., Mahakham, W., Heman, W., Sekimoto, H., Kawachi, M., Minakuchi, Y., Toyoda, A., Nozaki, H.@Expanded male sex-determining region conserved during the evolution of homothallism in the green alga Volvox.@iScience,@26,@106893 (article ID).@2023@@@NIES-3780@NIES3780@NIES-3786@NIES3786@NIES-3785@NIES3785@NIES-4468@NIES4468
3950@Jannel, S., Caro, Y., Bermudes, M., Petit, T.@Screening for microalgal biodiversity from Reunion Island in search of potential sources of natural astaxanthin.@J. Appl. Phycol.,@35,@2659–2673.@2023@@Microalgal diversity; Wild strains; Astaxanthin; Haematococcus lacustris; Dysmorphococcus spp.; Reunion Island@NIES-227@NIES227
3951@Marinič, D., Grilc, M., Hočevar, B., Delrue, F., Likozar, B.@Liquefaction, cracking and hydrogenation of microalgae biomass resources to CO2 negative advanced biofuels: Mechanisms, reaction microkinetics and modelling.@Renew. Energy,@203,@382-393.@2023@@Microalgae; Biofuel; Liquefaction; Hydrodeoxygenation; One-pot reaction@NIES-2173@NIES2173
3952@Nishi, K.@Development of advanced light-tolerant microalgae-nitrifying bacteria consortia for ammonia removal under strong light irradiation using light-shielding hydrogel.@PhD thesis, Soka University, Japan,@@94 pp. @2023@@@NIES-2173@NIES2173
3953@Ban, H., Sato, S., Yoshikawa, S., Yamada, K., Nakamura, Y., Ichinomiya, M., Sato, N., Blanc-Mathieu, R., Endo, H., Kuwata, A., Ogata, H.@Genome analysis of Parmales, the sister group of diatoms, reveals the evolutionary specialization of diatoms from phago-mixotrophs to photoautotrophs.@Commun. Biol.,@6,@697 (article ID).@2023@@@NIES-2565@NIES2565@NIES-3699@NIES3699@NIES-3700@NIES3700@NIES-3701@NIES3701
3954@Senavirathna, M. D. H. J. & Jayasekara, M. A. D. D.@Temporal variation of 2-MIB and geosmin production by Pseudanabaena galeata and Phormidium ambiguum exposed to high-intensity light.@Water Environ. Res.,@95,@e10834 (article ID).@2023@@extreme light; filamentous cyanobacteria; growth suppression; odorous compounds; stress response@NIES-512@NIES512@NIES-2119@NIES2119
3955@Kang, S., Kim, K.-H., Chung, N., Li, Z.@A new omega-3 rich euglenoid Eutreptiella sp. from the Korean coastal waters.@Algal Res.,@75,@103296 (article ID).@2023@@Euglenoids; Eutreptiella sp. KCTC 19016P; Fatty acids; Microalgae; Phytoplankton; Phylogenetic analysis@NIES-47@NIES47@NIES-381@NIES381@NIES-2305@NIES2305
3956@Kawaguchi, Y. W., Tsuchikane, Y., Tanaka, K., Taji, T., Suzuki, Y., Toyoda, A., Ito, M., Watano, Y., Nishiyama, T., Sekimoto, H., Tsuchimatsu, T.@Extensive copy number variation explains genome size variation in the unicellular Zygnematophycean alga, Closterium peracerosum–strigosum–littorale complex.@Genome Biol. Evol.,@15,@evad115 (article ID).@2023@@gene duplication; dosage compensation; copy number variation; green algae@NIES-53@NIES53@NIES-54@NIES54@NIES-58@NIES58@NIES-59@NIES59@NIES-62@NIES62@NIES-63@NIES63@NIES-64@NIES64@NIES-65@NIES65@NIES-68@NIES68@NIES-261@NIES261@NIES-2666@NIES2666@NIES-4548@NIES4548@NIES-4552@NIES4552@NIES-4551@NIES4551@NIES-4321@NIES4321@NIES-4319@NIES4319@NIES-4320@NIES4320@NIES-4550@NIES4550
3957@Nikulin, V. Y., Nikulin, A. Y., Gontcharov, A. A., Bagmet, V. B., Abdullin, S. R.@Oogamochlamys kurilensis sp. nov. (Chlorophyta, Volvocales) from the soils of Iturup Island (Sakhalin Region, Russia).@Plants-Basel,@12,@3350 (article ID).@2023@@biflagellate green alga; Oogamochlamys; new species; SSU rDNA; ITS rDNA secondary structure; morphological characteristics; life cycle; temperate monsoon climate zone@NIES-2317@NIES2317@NIES-2318@NIES2318@NIES-2294@NIES2294@NIES-1720@NIES1720@NIES-1716@NIES1716@NIES-2209@NIES2209@NIES-2210@NIES2210@NIES-2240@NIES2240@NIES-3760@NIES3760@NIES-2320@NIES2320@NIES-3572@NIES3572@NIES-2233@NIES2233
3958@Örs, E. D., Alkan, S. B., Öksüz, A.@Possible effect of astaxanthin on obesity-related increased COVID-19 infection morbidity and mortality.@Curr. Nutr. Food Sci.,@18,@265-273.@2022@@Haematococcus pluvialis; Obesity; adipose tissue; astaxanthin; coronavirus disease 2019; inflammation@NIES-144@NIES144
3959@Shi, X., Chang, X., Guo, X., Zhao, C., Tong, S.@Calcification moderates the biochemical responses of Gephyrocapsa oceanica to ocean acidification.@Mar. Biol. Res.,@17,@569-575.@2021@@@NIES-1318@NIES1318
3960@Villanueva, E. M. F. et al.@Protist.guru: A Comparative Transcriptomics Database for Protists.@J. Mol. Biol.,@434,@167502 (article ID).@2022@@@NIES-144@NIES144
3961@Xia, Y., Kishi, M., Sugai, Y., Toda, T.@Microalgal flocculation and sedimentation: spatiotemporal evaluation of the effects of the pH and calcium concentration.@Bioprocess. Biosyst. Eng.,@45,@1489-1498.@2022@@Keywords; Harvesting; Sedimentation efficiency; Sedimentation rate; Calcium recovery@NIES-227@NIES227
3962@Zzzbe@Chapter 2 - Specialized metabolites from cyanobacteria and their biological activities.@In The Pharmacological Potential of Cyanobacteria, Eds. by Lopes, G., Silva, M., Vasconcelos, V., Academic press@@pp. 21-54.@2022@@Kumla, D., Sousa, M. E., Vasconcelos, V., Kijjoa, A.@NIES-88@NIES88
3963@Sung, Y. J., Joun, J., Yu, B. S., Sim, S. J.@Chapter 10 - Photobioreactor systems for production of astaxanthin from microalgae.@In Current Developments in Biotechnology and Bioengineering. Photobioreactors : Design and Applications, Sirohi, R., Pandey, A., Sim, S., Chang, J.-S., Lee, D.-J., Elsevier@@pp. 229-246.@2023@@@NIES-144@NIES144
3964@Yamasaki, Y., Kameo, S., Wada, Y., Kitatsuji, S., Yuasa, K., Shikata, T.@Toxicological risk assessment of harmful algal species using the rotifer exposure test.@Bull. Plankton Soc. Japan,@70,@52-61 (in Japanese with English summary).@2023@@Brachionus plicatilis; Dinophyceae; harmful algal bloom species; lethal effect on rotifers; Raphidophyceae@NIES-1@NIES1@NIES-324@NIES324
3965@Kim, J.-H., Park, B. S., Kim, J. H.@Comprehensive understanding of the life history of harmful raphidophyte Heterosigma akashiwo: Integrating in situ and in vitro observations.@Harmful Algae,@129,@102521 (article ID).@2023@@Heterosigma akashiwo; Harmful alga; Raphidophyceae; Life history; Life cycle; Sexual reproduction; Hologamete; Homothallism; Zygote (large cell); Multiple cells; Cell cluster; Cyst cluster@NIES-5@NIES5@NIES-293@NIES293
3966@Yang, H. E., Yu, B. S., Sim, S. J.@Enhanced astaxanthin production of Haematococcus pluvialis strains induced salt and high light resistance with gamma irradiation.@Bioresour. Technol.,@372,@128651 (article ID).@2023@@Haematococcus pluvialis; Gamma ray; Astaxanthin; Salinity; High light intensity@NIES-144@NIES144
3967@Tuji, A., Ogiso-Tanaka, E., Yamaguchi, H.@Complete genome sequence of Annamia dubia, filamentous colony-making Chroococcales with the analysis of FraC gene influencing filament integrity.@J. Genomics,@12,@1-5.@2024@@@NIES-843@NIES843@NIES-39@NIES39@NIES-46@NIES46@NIES-204@NIES204
3968@Martin, R. M., Denney, M. K., Pound, H. L., Chaffin, J. D., Bullerjahn, G. S., McKay, R. M. L., Zastepa, A., Jones, K. A., Castro, H. F., Campagna, S. R., Wilhelm, S. W.@Sulfolipid substitution ratios of Microcystis aeruginosa and planktonic communities as an indicator of phosphorus limitation in Lake Erie.@Limnol. Oceanogr.,@68,@1117-1131.@2023@@@NIES-843@NIES843
3969@Seger, M., Mammadova, F., Villegas-Valencia, M., de Freitas, B. B., Chang, C. R. S., Isachsen, I., Hemstreet, H., Abualsaud, F., Boring, M., Lammers, P. J., Lauersen, K. J.@Engineered ketocarotenoid biosynthesis in the polyextremophilic red microalga Cyanidioschyzon merolae 10D.@Metab. Eng. Commun.,@17,@e00226 (article ID).@2023@@Microalgae; red algae; ketocarotenoids; Cyanidiophyceae; polyextremophiles; astaxanthin@NIES-3377@NIES3377@NIES-4696@NIES4696
3970@Yamagishi, S., Yamamoto, K., Takahashi, K., Kawai-Toyooka, H., Suzuki, S., Matsuzaki, R., Yamaguchi, H., Kawachi, M., Higashiyama, T., Nozaki, H.@Evolutionary analysis of MID homologs during the transition from homothallic species to heterothallic species in Volvox sect. Volvox (Chlorophyceae).@Phycol. Res.,@72,@46-55.@2024@@male gamete; mating system; minus dominance gene (MID); molecular evolution; sex; sperm packet; volvocine green algae@NIES-289@NIES289@NIES-456@NIES456@NIES-460@NIES460@NIES-541@NIES541@NIES-544@NIES544@NIES-545@NIES545@NIES-569@NIES569@NIES-572@NIES572@NIES-574@NIES574@NIES-582@NIES582@NIES-652@NIES652@NIES-653@NIES653@NIES-654@NIES654@NIES-732@NIES732@NIES-851@NIES851@NIES-852@NIES852@NIES-857@NIES857@NIES-872@NIES872@NIES-891@NIES891@NIES-892@NIES892@NIES-1362@NIES1362@NIES-1363@NIES1363@NIES-1708@NIES1708@NIES-1710@NIES1710@NIES-1859@NIES1859@NIES-2457@NIES2457@NIES-2569@NIES2569@NIES-2735@NIES2735@NIES-3382@NIES3382@NIES-3383@NIES3383@NIES-3780@NIES3780@NIES-3782@NIES3782@NIES-3786@NIES3786@NIES-3984@NIES3984@NIES-3986@NIES3986@NIES-3988@NIES3988@NIES-4025@NIES4025@NIES-4432@NIES4432@NIES-4535@NIES4535@NIES-4536@NIES4536@NIES-4537@NIES4537@NIES-2740@NIES2740@NIES-4021@NIES4021@NIES-3874@NIES3874@NIES-2736@NIES2736@NIES-4336@NIES4336
3971@Handa, S., Nakahara-Tsubota, M., Shoda, I., Mizobuchi, A., Nakano, T., Tsubota, H.@Trentepohlia brevicellulis comb. et stat. nov. (Trentepohliaceae, Ulvophyceae) found in Japan.@Phycol. Res.,@72,@12-26.@2024@@18S rDNA; aerial algae; molecular phylogeny; morphology; Trentepohlia bosseae var. brevicellulis@NIES-2655@NIES2655@NIES-2653@NIES2653@NIES-2654@NIES2654@NIES-2646@NIES2646@NIES-2644@NIES2644@NIES-2647@NIES2647@NIES-2645@NIES2645@NIES-2657@NIES2657@NIES-2658@NIES2658@NIES-2649@NIES2649@NIES-2650@NIES2650@NIES-2651@NIES2651@NIES-2652@NIES2652@NIES-2656@NIES2656
3972@Okada, K., Morimoto, Y., Shiraishi, Y., Tamura, T., Mayama, S., Kadono, T., Adachi, M., Ifuku, K., Nemoto, M.@Nuclear transformation of the marine pennate diatom Nitzschia sp. strain NIES-4635 by multi-pulse electroporation.@Mar. Biotechnol.,@25,@1208–1219.@2023@@Diatom; Genetic transformation; Nitzschia; Multi-pulse electroporation@NIES-4635@NIES4635
3973@Nakanishi, A., Nemoto, S., Yamamoto, N., Iritani, K., Watanabe, M.@Identification of cell-attachment factors derived from green algal cells disrupted by sonication in fabrication of cell plastics.@Bioengineering-Basel,@10,@893 (article ID).@2023@@cell plastics; unicellular green algae; attachment factors in matrices; proteomics@NIES-2235@NIES2235
3974@Kumar, S., Kumar, R., Diksha, Kumari, A., Panwar, A.@Astaxanthin: A super antioxidant from microalgae and its therapeutic potential.@J. Basic Microbiol.,@62,@1064-1082.@2022@@biological activities; cultivation system, biorefining proces@NIES-144@NIES144
3975@Kumari, S., Kumar, V., Kothari, R., Kumar, P.@Experimental and optimization studies on phycoremediation of dairy wastewater and biomass production efficiency of Chlorella vulgaris isolated from Ganga River, Haridwar, India.@Environ. Sci. Pollut. Res.,@29,@74643–74654.@2022@@Bioremediation; Environmental restoration; Freshwater algae; Industrial pollution; Response surface methodology; Wastewater treatment@NIES-227@NIES227
3976@Magalhães, B. D., Matricon, L., Romero, L. A. R., Checa, R., Lorentz, C., Chambonniere, P., Delrue, F., Roubaud, A., Afanasiev, P., Laurenti, D., Geantet, C.@Catalytic hydrotreatment of bio-oil from continuous HTL of Chlorella sorokiniana and Chlorella vulgaris microalgae for biofuel production.@Biomass Bioenerg.,@173,@106798 (article ID).@2023@@@NIES-227@NIES227@NIES-2273@NIES2273
3977@Shen, X. F., Xu, Y. P., Jiang, Y. F., Gao, L. J., Tong, X. Q., Gong, J., Yang, Y. F., Zeng, R. J.@Evaluating nutrient limitation in co-culture of Chlorella pyrenoidosa and Rhodobacter sphaeroides.@Sci. Total Environ.,@906,@167706 (article ID).@2024@@Microalgae; Photosynthetic bacteria; FAME; iTRAQ; Nitrogen starvation@NIES-2168@NIES2168
3978@Shen, X. F., Xu, Y. P., Tong, X. Q., Huang, Q., Zhang, S., Gong, J., Chu, F. F., Zeng, R. J.@The mechanism of carbon source utilization by microalgae when co-cultivated with photosynthetic bacteria.@Bioresour. Technol.,@365,@28152 (article ID).@2022@@Microalgae; Photosynthetic bacteria; FAME; iTRAQ; Carbon mechanism@NIES-227@NIES227@NIES-2168@NIES2168@NIES-2280@NIES2280
3979@Maruyama, K. & Ohtsuki, T.@A simple method for the preparation of single cells and regeneration of colonies of Botryococcus braunii NIES836.@J. Microbiol. Methods,@216,@106859 (article ID).@2024@@Botryococcus braunii; Colony regeneration; Microalgae; Nutrient limitation; Single-cell preparation@NIES-836@NIES836
3980@Nagasoe, S., Suzuki, K., Yurimoto, T., Fuseya, R., Fukao, T., Yamatogi, T., Kimoto, K., Maeno, Y.@Clearance effects of the Pacific oyster Crassostrea gigas on the fish-killing algae Chattonella marina and Chattonella antiqua.@Aquat. Biol.,@11,@201-211.@2011@@Clearance rate; Raphidophyte; Harmful algae; Chattonella spp.@NIES-2659@NIES2659@NIES-2660@NIES2660
3981@Karitani, Y., Yamada, R., MatsumotoT., Ogino, H.@UV mutagenesis improves growth potential of green algae in a green algae–yeast co‑culture system.@Arch. Microbiol.,@206,@61 (article ID).@2024@@Chlamydomonas reinhardtii; Co-cultivation; Photosynthesis; Saccharomyces cerevisiae; Mutagenesis; Transcriptome analysis@NIES-2238@NIES2238
3982@Kodama, Y. & Endoh, Y.@Comparative analyses of the symbiotic associations of the host Paramecium bursaria with free-living and native symbiotic species of Chlorella.@Curr. Microbiol.,@81,@66 (article ID).@2024@@@NIES-2169@NIES2169
3983@Hosoda, K., Seno, S., MurakamiN., Matsuda, H., Osada, Y., Kamiura, R., Kondoh, M.@Synthetic model ecosystem of 12 cryopreservable microbial species allowing for a noninvasive approach.@Biosystems,@235,@105087 (article ID).@2024@@Synthetic ecosystem; Experimental model ecosystem; Microbial microcosm; Machine learning@NIES-21@NIES21@NIES-35@NIES35@NIES-227@NIES227@NIES-2236@NIES2236
3984@Wijesinghe, A., Senevirathna, M. D. H. J., Fujino, T.@Egeria densa organic extracts: an eco-friendly approach to suppress Microcystis aeruginosa growth through allelopathy.@Water Sci. Technol.,@88,@2955–2973.@2023@@allelopathy; cyanobacteria; growth inhibition; macrophytes; plant extracts@NIES-111@NIES111
3985@Kurtović, K., Schmidt, V., Nehasilová, M., Vosolsobĕ, S., Petrášek, J.@Rediscovering Chara as a model organism for molecular and evo‑devo studies.@Protoplasma,@261,@183-196.@2023@@Chara; Plant evolution; Model plants; Charophytesas@NIES-1604@NIES1604
3986@Nagi, G. K., Goel, M., Tiwari, R., Bhawna, Gaur, S., Mallick, N., Mandal, S.@Simultaneous production of bio-crude bio-oil via hydrothermal liquefaction and carotenoids via supercritical extraction from Nannochloropsis oceanica and recycling effluent to establish circular processes.@J. Clean Prod.,@428,@13945 (article ID).@2023@@Algal biofuels; Biorefinery; Circular bioeconomy; Hydrothermal liquefaction; Microalgae; Nannochloropsis oceanica@NIES-2145@NIES2145
3987@Hirooka, S., Hirose, Y., Kanesaki, Y., Higuchi, S., Fujiwara, T., Onuma, R., Era, A., Ohbayashi, R., Uzuka, A., Nozaki, H., Yoshikawa, H., Miyagishima, SY.@Acidophilic green algal genome provides insights into adaptation to an acidic environment.@Proc. Natl. Acad. Sci. U. S. A.,@114,@E8304–E8313.@2017@@acidic environment; acidophilic alga; comparative genomics; comparative transcriptomics; environmental adaptation@NIES-2499@NIES2499
3988@Carrillo-Carrasco, V. P., Hernandez-Garcia, J., Weijers, D.@Electroporation-based delivery of proteins in Peniummargaritaceum and other zygnematophycean algae.@Physiol. Plant.,@175,@e1412 (article ID).@2023@@@NIES-217@NIES217@NIES-67@NIES67
3989@Takusagawa, M., Misumi, O., Nozaki, H., Kato, S., Maruyama, S., Tsujimoto-Inui, Y., Yagisawa, F., Ohnuma, M., Kuroiwa, H, Kuroiwa, T., Matsunaga, S.@Complete mitochondrial and chloroplast DNA sequences of the freshwater green microalga Medakamo hakoo.@Genes Genet. Syst.,@98,@353-360.@2023@@mitochondria; chloroplast; organelle genome; Trebouxiophyceae@NIES-4000@NIES4000
3990@Glass, S. E., McCourt, R. M., Gottschalk, S. D., Lewis, L. A., Karol, K. G.@Chloroplast genome evolution and phylogeny of the early-diverging charophycean green algae with a focus on the Klebsormidiophyceae and Streptofilum.@J. Phycol.,@59,@1133-1146.@2023@@algae; Charophyta; cryptic species; Entransia; green algae; Hormidiella; Interfilum; Klebsormidium; Streptosarcina; systematics@NIES-477@NIES477
3991@Shiraishi, H., Sasase, M., Nakashima, A. S.@Helicoid morphology of Arthrospira platensis NIES-39 confers temperature compensation in the longitudinal movement velocity of its trichomes.@Phycology,@4,@104-116.@2024@@Arthrospira platensis; cell movement; cyanobacteria; gliding motility; helix; multicellularity; spirulina; temperature compensation@NIES-39@NIES39
3992@Wang, K., Li, w., Cui, H., Qin, S.@Phylogenetic analysis and characterization of diguanylate cyclase and phosphodiesterase in planktonic filamentous cyanobacterium Arthrospira sp..@Int. J. Mol. Sci.,@24,@15210 (article ID).@2023@@c-di-GMP; Arthrospira; diguanylate cyclase; phosphodiesterase; riboswitch@NIES-39@NIES39
3993@Kato, K., Hamaguchi, T., Kumazawa, M., Nakajima, Y., Ifuku, K., Hirooka, S., Hirose, Y., Miyagishima, S., Suzuki, T., Kawakami, K., Dohmae, N., Yonekura, K., Shen, J.-R., Nagao, R.@The structure of PSI-LHCI from Cyanidium caldarium provides evolutionary insights into conservation and diversity of red-lineage LHCs.@Proc. Natl. Acad. Sci. U. S. A.,@121,@e2319658121 (article ID).@2024@@light-harvesting complex; photosynthesis; photosystem; red alga@NIES-2137@NIES2137
3994@Tsai, K.-P., Kirschman, Z. A., Moldaenke, C., Chaffin, J. D., McClure, A., Seo, Y., Bridgeman, T. B.@Field and laboratory studies of fluorescence-based technologies for real-time tracking of cyanobacterial cell lysis and potential microcystins release.@Sci. Total Environ.,@920,@171121 (article ID).@2024@@Cyanobacterial bloom; Cell lysis; Extracellular microcystin; Unbound phycocyanin; Early warning system; Drinking water treatment@NIES-298@NIES298
3995@Zhang, K., Wan, M., Bai, W., Bao, Z., Duan, X., Wang, W., Fan, F., Li, Y.@A novel heterotrophic cultivation process of Euglena gracilis based on NaCl stress significantly increases the paramylon production.@Algal Res.,@78,@103391 (article ID).@2024@@@NIES-48@NIES48
3996@Kasai, Y., Takagi, S., Ota, S., Ishii, K., Takeshita, T., Kawano, S., Harayama, S.@Development of a CRISPR/Cas9-mediated gene-editing method to isolate a mutant of the unicellular green alga Parachlorella kessleri strain NIES-2152 with improved lipid productivity.@Biotechnol. Biofuels Bioprod.,@17,@ (article ID).@2024@@Parachlorella kessleri; Genetic transformationElectroporation; Genome editing; CRISPR/Cas9@NIES-2152@NIES2152
3997@Nakanishi, A., Omino, N., Nakamura, T., Goto, S., Matsumoto, R., Yomogita, M., Narisawa, N., Kimijima, M., Iritani, K.@Evaluation of cellular responses of heterotrophic Escherichia coli cultured with autotrophic Chlamydomonas reinhardtii as a nutrient source by analyses based on microbiology and transcriptome.@Microorganisms,@12,@452 (article ID).@2024@@Escherichia coli; Chlamydomonas reinhardtii; cellular response; transcriptomics@NIES-2235@NIES2235
3998@Horikoshi, S., Hidaka, T., Nishimura, F., Kishimoto, N.@Development of separation and recovery technology of cultured Euglena gracilis using activated sludge for anaerobic digestion.@Bioresour. Technol. Reports,@25,@101790 (article ID).@2024@@Methane fermentation; Sewage treatment plant; Waste activated sludge@NIES-49@NIES49
3999@Feng, S., Liu, F., Zhu, S., Xu, Z., Qin, L., Feng, P., Wang, Z., Chen, H., Guo, W., Ngo, H. H.@Role of hydraulic retention time in integration of microalgae and activated sludge process for nutrient recycle from diluted dairy liquid digestate.@Chem. Eng. J.,@484,@49538 (article ID).@2024@@Microalgae and activated sludge; Hydraulic retention time; Dairy liquid digestate; Biomass production; Pollutant removal; Metagenomic analysis@NIES-227@NIES227
4000@Ramírez‑Romero, A., Da Costa Magalhães, B., Matricon, L., Sassi, J.-F., Steyer, J.-P., Delrue, F.@Aqueous phase recycling: impact on microalgal lipid accumulation and biomass quality.@Environ. Sci. Pollut. Res.,@@@2024@@Renewable feedstock; Hydrothermal liquefaction; Green fuels; Microalgal biomass; Nutrient cycling@NIES-2173@NIES2173@NIES-227@NIES227
4001@Ueno, Y. & Akimoto, S. @Long-term light adaptation of light-harvesting and energy-transfer processes in the glaucophyte Cyanophora paradoxa under different light conditions.@Photosynth. Res.,@159,@165-175.@2024@@Excitation energy transfer; Light harvesting; Glaucophyte; Light adaptation; Time-resolved fuorescence spectroscopy@NIES-547@NIES547
4002@Ohnuki, S., Sato, N., Fujiwara, S.@Investigation of the cause of the sensitivity difference to pyrazosulfuron-ethyl between the green algae, Raphidocelis subcapitata and Desmodesmus subspicatus, focusing on target-site and nontarget-site resistance.@Jpn. J. Environ. Toxicol.,@27,@9-22.@2024@@Raphidocelis subcapitata; Desmodesmus subspicatus; sensitivity; sulfonylurea herbicide; cytochrome P450@NIES-4282@NIES4282
4003@Zheng, S., Lee, V., Meza-Padilla, I., Nissimov, J. I.@Antiviral discovery in toxic cyanobacteria: Low hanging fruit in the age of pandemics.@J. Phycol.,@60,@574-580.@2024@@antiviral activity; cyanobacteria; Microcystis aeruginosa; ssRNA viruses; ssDNA viruses@NIES-298@NIES298
4004@Coale, T. H., Loconte, V., Turk-Kubo, K. A., Vanslembrouck, B., Mak, W. K. E., Cheung, S., Ekman, A., Chen, J.-H., Hagino, K., Takano, Y., Nishimura, T., Adachi, M., Le Gros, M., Larabell, C., Zehr, J. P.@Nitrogen-fixing organelle in a marine alga.@Science,@384,@217-222.@2024@@@NIES-4399@NIES4399
4005@Zhao, Y., Li, Z., Fan, Y., Santisouk, L., Lei, Z., Yuan, T., Shimizu, K., Utsumi, M.@A preliminary test for nitrogen recovery potential of nitrogen fixing cyanobacteria and its granules treating wastewater containing different nitrogen species.@Chem. Eng. J.,@490,@151765 (article ID).@2024@@Ammonia nitrogen; Biogranulation; Cyanobacteria; Nitrate nitrogen; Nitrogen fixation; Wastewater treatment@NIES-1726@NIES1726@NIES-1728@NIES1728
4006@Casero, M. C., Herrero, M. Á., De la Roche, J. P., Quesada, A., Velázquez, D., Cirés, S.@Effect of salinity on scytonemin yield in endolithic cyanobacteria from the Atacama Desert.@Sci Rep,@14,@9731 (article ID).@2024@@@NIES-21@NIES21@NIES-25@NIES25@NIES-4074@NIES4074@NIES-3756@NIES3756
4007@Derienko, T. & Pröschold, T.@Solotvynia, a New Coccoid Lineage among the Ulvophyceae (Chlorophyta).@Microorganisms,@12,@868 (article ID).@2024@@Chlorocystis; distribution; Halochlorococcum; Ignatius; ITS-2 secondary structure; marine coccoids; SSU/ITS phylogeny; Symbiochlorum@NIES-1838@NIES1838@NIES-1839@NIES1839
4008@Yang, C., Ding, M., Hou, K., Feng, J., Li, X., Pan, X., Yang, C., Zhang, X., Guo, J., Dai, X.@Dissolved organic matter, calcium ion and extracellular polymeric substances on living associated bacteria of Microcystis colony are crucial for unicellular Microcystis to efficiently form colonies.@J. Hazard. Mater.,@471,@134352 (article ID).@2024@@Microcystis colony; Colony-associated bacteria; Bridging effect; Cell adhesion; Cell division@NIES-843@NIES843
4009@Krivina, E., Portnov, A., Temraleeva, A.@A description of Aliichlorella ignota gen. et sp. nov. and a comparison of the efficiency of species delimitation methods in the Chlorella-clade (Trebouxiophyceae, Chlorophyta).@Phycol. Res.,@72,@180-190.@2024@@CBC approach; delimitation algorithms; green microalgae, morphology; taxonomy@NIES-455@NIES455@NIES-2167@NIES2167@NIES-2171@NIES2171@NIES-2173@NIES2173@NIES-4032@NIES4032@NIES-4033@NIES4033@NIES-4034@NIES4034@NIES-2330@NIES2330
4010@Matsuzawa, T., Tai, R., Mano, H., Ogura, I.@Applicability of enzymatic and phenol–sulfuric acid methods for determination of cellulose nanofbers in ecotoxicity testing.@J. Wood Sci.,@70,@17 (article ID).@2024@@Cellulose nanofiber; Cellulose nanofibril; Cellulase; Phenol-sulfuric acid method; Nanomaterial@NIES-35@NIES35
4011@Ok, J. H., Jeong, H. J., You, J. H., Park, S. A., Kang, H. C., Eom, S. H., Lee, M. J., Rho, J.-R.@Interactions between the calanoid copepod Acartia hongi and the bloom-forming dinoflagellates Karenia bicuneiformis and K. selliformis.@Mar. Biol.,@171,@112 (article ID).@2024@@Grazing; Kareniaceae; Marine; Mesozooplankton; Mortality; Survival; Toxin@NIES-4541@NIES4541
4012@Nagai, Y., Uematsu, K., Mamo, B., Toyofuku, T.@The calcitic test growth rate of Spirillina vivipara (Foraminifera).@Biogeosciences,@21,@1675-1684.@2024@@@NIES-2258@NIES2258
4013@Nagai, Y., Uematsu, K., Chen, C., Wani, R., Tyszka, J., Toyofuku, T.@Weaving of biomineralization framework in rotaliid foraminifera: implications for paleoceanographic proxies.@Biogeosciences,@15,@6773-6789.@2018@@@NIES-2258@NIES2258
4014@Ujiié, Y., Ishitani, Y., Nagai, Y., Takaki, Y., Toyofuku, T., Ishii, S.@Unique evolution of foraminiferal calcification to survive global changes.@Sci. Adv.,@9,@eadd3584 (article ID).@2023@@@NIES-2258@NIES2258
4015@Kitatsuji, S., Shikata, T., Sakamoto, S., Nakayama, N., Nagai, K., Onitsuka, G., Tada, Kuninao@Detection of harmful algae grazed by Noctiluca scintillans by LAMP method.@J. Fish. Technol.,@12,@23-29 (in Japanese with English summary).@2019@@Noctiluca scintillans; harmful algae; LAMP method@NIES-2258@NIES2258
4016@Cho, A., Lax, G., Livingston, S. J., Masukagami, Y., Naumova, M., Millar, O., Husnik, F., Keeling, P. J.@Genomic analyses of Symbiomonas scintillans show no evidence for endosymbiotic bacteria but does reveal the presence of giant viruses.@PLoS Genet.,@20,@e101121 (article ID).@2024@@@NIES-2589@NIES2589
4017@Nakanishi, A., Yomogita, M., Horimoto, T.@Evaluation of cellular responses by Chlamydomonas reinhardtii in media containing dairy-processing residues derived from cheese as nutrients by analyzing cell growth activity and comprehensive gene transcription levels.@Microorganisms,@12,@715 (article ID).@2024@@Chlamydomonas reinhardtii; whey; whey retentate; cellular response; transcriptomics; biomass; mineral; potassium@NIES-2235@NIES2235
4018@Mezgebu, A., Liu, X., Mingist, M., Ban, S.@Evaluating food quality of Arthrospira platensis for culturing Daphnia magna.@Aquac. Int.,@32,@3533-3544.@2023@@Arthrospira platensis; Daphnia magna; Essential biochemicals; Food quality@NIES-2235@NIES2235@NIES-39@NIES39
4019@Karitani, Y., Yamada, R., Matsumoto, T., Ogino, H.@Improvement of cell growth in green algae Chlamydomonas reinhardtii through co-cultivation with yeast Saccharomyces cerevisiae.@Biotechnol. Lett.,@46,@431-441.@2024@@Chlamydomonas reinhardtii; Co-cultivation; Photosynthesis; Saccharomyces cerevisiae; Transcriptome analysis@NIES-2238@NIES2238
4020@Shoguchi, E., Kawachi, M., Shinzato, C., Beedessee, G.@Functional analyses of bacterial genomes found in Symbiodiniaceae genome assemblies.@Environ. Microbiol. Rep.,@16,@e13238 (article ID).@2024@@@NIES-2907@NIES2907@NIES-3808@NIES3808@NIES-4076@NIES4076@NIES-4077@NIES4077
4021@Lee, C., Han, S.-I., Na, H., Kim, Z., Ahn, J. W., Oh, B., Kim, H. S.@Comprehensive understanding of the mutant 'giant' Arthrospira platensis developed via ultraviolet mutagenesis.@Front. Plant Sci.,@15,@1369976 (article ID).@2024@@Arthrospira platensis; whole genome sequencing; cell size; harvest; microfluidic@NIES-39@NIES39
4022@Shinohara, K., Ito, Y., Okunishi, S., Maeda, H.@Elucidating the seasonal dominance replacement mechanism of harmful raphidophytes Chattonella marina and Heterosigma akashiwo using the Lotka–Volterra model.@Ecol. Model.,@491,@110660 (article ID).@2024@@Lotka–Volterra model; Phytoplankton; Red tide; Numerical analysis; Seasonal dominance replacement; Competitive interaction@NIES-115@NIES115
4023@Inamori, Y., Inamori, R., Ruike, K., Murakami, K., Suzuki, R.@Screening of the bacterial consortium related to the microcystin-LR degradation isolated from the marine area, Isahaya-bay, and the freshwater area, Isahaya-Shin-ike-Pond, Japan.@Int. J. Biol.,@15,@8-17.@2024@@Isahaya-Bay; Isahaya-Shin-ike-Pond; Microcystins; Bacterial consortium; Biological degradation@NIES-298@NIES298
4024@Murray, JvS., Passfield, E. M. F., Rhodes, L. L., Puddick, J., Finch, S. C., Smith, K. F., van Ginkel, R., Mudge, E. M., Nishimura, T., Funaki, H., Adachi, M., Prinsep, M. R., Harwood, D. T.@Targeted metabolite fingerprints of thirteen Gambierdiscus, five Coolia and two Fukuyoa species.@Mar. Drugs,@22,@119 (article ID).@2024@@ciguatera poisoning; ciguatoxin; maitotoxin; bioactive; mass spectrometry; benthic dinoflagellate; toxicity@NIES-4120@NIES4120
4025@Gu, Y., Tobino, T., Nakajima, F.@Dietborne toxicity of tebuconazole to a benthic crustacean, Heterocypris incongruens and its relative contribution to the overall effects under food-water equilibrium partitioning.@Environ. Sci. Technol.,@58,@1048-1054.@2024@@tebuconazole; toxicity test; dietborne toxicity; exposure route; Heterocypris incongruens; dietary contribution@NIES-797@NIES797
4026@Nowruzi, B., Hutarova, L., Vešelenyiova, D., Metcalf, J. S. @Characterization of Neowestiellopsis persica A1387 (Hapalosiphonaceae) based on the cpcA, psbA, rpoC1, nifH and nifD gene sequences.@BMC Ecol. Evol.,@24,@57 (article ID).@2024@@Cyanobacteria; Phylogenetic analysis; Neowestiellopsis persica, cpcA@NIES-21@NIES21@NIES-22@NIES22@NIES-23@NIES23@NIES-25@NIES25@NIES-50@NIES50@NIES-73@NIES73@NIES-267@NIES267@NIES-592@NIES592@NIES-2098@NIES2098@NIES-2100@NIES2100@NIES-2107@NIES2107@NIES-3275@NIES3275@NIES-3754@NIES3754@NIES-3974@NIES3974@NIES-4073@NIES4073@NIES-4074@NIES4074@NIES-4101@NIES4101@NIES-4103@NIES4103@NIES-4106@NIES4106@NIES-3756@NIES3756
4027@Dong, X., Zhang, S., Chen, X., Lei, Z., Yuan, T., Shimizu, K., Utsumi, M.@Preliminary tests on carbon and nitrogen emissions and nutrients availability upon application of algal-bacterial granules to arid and low fertility soil.@Chem. Eng. J.,@492,@152250 (article ID).@2024@@Algal-bacterial aerobic granular sludge; Carbon mineralization; Elevated CO2 content; Nitrogen loss; Soil amendment@NIES-1726@NIES1726
4028@Marchetto, F., Santaeufemia, S., Lebiedzińska-Arciszewska, M., Śliwińska, M. A., Pich, M., Kurek, E., Nazieblo, A., Strawski, M., Solymosi, D., Szklarczyk, M., Bulska, E., Szymański, J., Wierzbicka, M., Allahverdiyeva, Y., Wieckowski, M. R., Kargul, J.@Dynamic adaptation of the extremophilic red microalga Cyanidioschyzon merolae to high nickel stress.@Plant Physiol. Biochem.,@207,@108365 (article ID).@2024@@Abiotic stress; Adaptation; Cyanidioschyzon merolae; Heavy metals; Nickel; Photosynthesis and respiration@NIES-2237@NIES2237@NIES-3377@NIES3377@NIES-4696@NIES4696
4029@Yin, Y. & Miao, X.@Sustainable lutein production from Chlorella sorokiniana NIES-2168 by using aquaculture wastewater with two-stage cultivation strategies.@Water,@16,@79 (article ID).@2024@@aquaculture wastewater; microalgae; lutein; two-stage@NIES-2168@NIES2168
4030@Baker, D., Godwin, C. M., Khanam, M., Burtner, A. M., Dick, G. J., Denef, V. J.@Variation in resource competition traits among Microcystis strains is affected by their microbiomes.@mLife,@,@401-415.@2023@@cultivation‐dependent; fitness; harmful algal blooms; host–microbe interactions; phytoplankton@NIES-843@NIES843
4031@Entfellner, E., Baumann, K. B. L., Edwards, C., Kurmayer, R.@High structural diversity of aeruginosins in bloom-Forming cyanobacteria of the genus Planktothrix as a consequence of multiple recombination events.@Mar. Drugs,@21,@638 (article ID).@2023@@horizontal gene transfer; chemical diversification; freshwater ecotypes; shallow waterbodies; deep waterbodies@NIES-2549@NIES2549@NIES-2481@NIES2481@NIES-843@NIES843@NIES-102@NIES102@NIES-98@NIES98@NIES-204@NIES204@NIES-298@NIES298
4032@Baunach, M., Guljamow, A., Miguel-Gordo, M., Dittmann, E,@Harnessing the potential: advances in cyanobacterial natural product research and biotechnology.@Nat. Prod. Rep.,@41,@347-369.@2024@@@NIES-98@NIES98
4033@Wijesinghe, A., Senavirathna, M. D. H. J., Fujino, T.@Inhibitory effect of aqueous extracts from Egeria densa Planch. on Cyanobacteria Microcystis aeruginosa (Kützing) Lemmermann growth.@Hydrobiology,@2,@491-506.@2023@@allelopathic suppression; biological control; cyanobacteria; macrophytes; plant extractions@NIES-111@NIES111
4034@Chen, M., Sawicki, A., Wang, F.@Modeling the characteristic residues of chlorophyll f synthase (ChlF) from Halomicronema hongdechloris to Determine Its reaction mechanism.@Microorganisms,@11,@2305 (article ID).@2023@@photosystem II; chlorophyll; free radical; cyanobacteria; oxygen evolution center; chlorophyll f biosynthesis@NIES-267@NIES267
4035@Yu, S., Xu, C, Tang, T., Zhang, Y., Effiong, K., Hu, J., Bi, Y., Xiao, X.@Down-regulation of iron/zinc ion transport and toxin synthesis in Microcystis aeruginosa exposed to 5,4′-dihydroxyflavone.@J. Hazard. Mater.,@460,@132396 (article ID).@2023@@Allelopathy; Flavonoids; Transcriptomics; Harmful algae bloom; Docking@NIES-843@NIES843
4036@Tai, R., Ogura, I., Okazaki, T., Iizumi, Y., Mano, H.@Algal growth inhibition test with TEMPO-oxidized cellulose nanofibers.@NanoImpact,@34,@100504 (article ID).@2024@@Cellulose nanofibers (CNFs); AlgaeEcotoxicity test; Nanocellulose@NIES-35@NIES35
4037@Susanti, H., Yoneda, K., Yoshida, M.@Influence of sphagnum peat extract on the biomass of novel algae Ostravamonas trianguloculus (volvocales, chlorophyceae) from peatlan.@AIP Conf. Proc.,@American Institute of Physics conference proceedings,@07000 (article ID).@2023@@Biomass energy sources; Algae; Fatty acids@NIES-4318@NIES4318
4038@Ata, S. & Shibakami, M.@Experimental and theoretical estimation of the Hansen solubility parameters of paramylon esters based on the degrees of substitution and chain lengths of their acyl groups.@Biopolymer,@114,@e23565 (article ID).@2023@@acyl chain length; degree of substitution; Hansen solubility parameter; paramylon@NIES-48@NIES48
4039@Yamada, R., Yokota, M., Matsumoto, T., Hankamer, B., Ogino, H.@Promoting cell growth and characterizing partial symbiotic relationships in the co-cultivation of green alga Chlamydomonas reinhardtii and Escherichia coli.@Biotechnol. J.,@18,@e2200099 (article ID).@2023@@Chlamydomonas reinhardtii; co-culture; Escherichia coli; photosynthesis; symbiotic relationship@NIES-2238@NIES2238
4040@Kim, J.-H., Kim, J. H., Kim, S.-H., Kang, Y.-H., Lee, J., Joo, J.-H., Han, M.-S., Park. B. S.@The impact of sexual reproduction-induced vertical migration on the complexity of harmful algal blooms in Heterosigma akashiwo.@Environ. Res.,@258,@119437 (article ID).@2024@@Harmful algal bloom; Population dynamics; Phytoplankton behaviour@NIES-6@NIES6@NIES-293@NIES293
4041@Kishi, M., Tanaka, K.,Tagawa, M., Akizuki, S., Toda, T.@Energy-efficient algal culture through aeration-less oxygen removal in a gas-permeable bag photobioreactor.@Algal Res.,@69,@102959 (article ID).@2023@@Arthrospira platensis; Bicarbonate; Dissolved oxygen; Energy-efficient; Membrane; Pervaporation@NIES-39@NIES39
4042@Badr, K., He, Q. P., Wang, J.@Probing interspecies metabolic interactions within a synthetic binary microbiome using genome-scale modeling.@Microbiome Res. Rep.,@3,@31 (article ID).@2024@@Synthetic microbiome; methanotroph-photoautotroph coculture; interspecies metabolic interactions; genome-scale metabolic modeling; steady state modeling; dynamic modeling@NIES-39@NIES39
4043@Azizi, M., Moteshafi, H., Hashemi, M.@Novel paradigm of light and CO₂ feeding to improve the co-production of ‎astaxanthin and polyunsaturated fatty acids in Haematococcus ‎pluvialis.@J. CO2 Util.,@84,@102855 (article ID).@2024@@Haematococcus pluvialis; Lighting/CO₂ balance; Astaxanthin; Polyunsaturated fatty acids; Carbon bio-sequestration@NIES-144@NIES144
4044@Imamura, S., Yamada, K., Takebe, H., Kiuchi, R., Iwashita, H., Toyokawa, C., Suzuki, K., Sakurai, A., Takaya, K.@Optimal conditions of algal breeding using neutral beam and applying it to breed Euglena gracilis strains with improved lipid accumulation.@Sci Rep,@14,@14716 (article ID).@2024@@@NIES-48@NIES48
4045@Knosp, S., Kriegshauser, L., Tatsumi, K., Malherbe, L., Erhardt, M., Wiedemann, G., Bakan, B., Kohchi, T., Reski, R., Renault, H.@An ancient role for CYP73 monooxygenases in phenylpropanoid biosynthesis and embryophyte development.@Embo J.,@43, @4092-4109.@2024@@Plant Evolution; Bryophytes; Cytochromes P450; Biopolymers; Cinnamic Acid 4-Hydroxylase@NIES-2285@NIES2285
4046@Mizobuchi, A., Handa, S., Tsubota, H.@Detailed observations of the life history and phylogenetic placements of the freshwater green alga Oocystaenium elegans (Oocystaceae, Trebouxiophyceae), with an emended description.@Phycol. Res.@72,@215-223.@2024@@Eremosphaera; Japan; oogamy; receptive papilla; sexual reproduction@NIES-382@NIES382@NIES-3911@NIES3911@NIES-3912@NIES3912@NIES-4279@NIES4279@NIES-4290@NIES4290@NIES-4389@NIES4389@NIES-4629@NIES4629@NIES-4630@NIES4630@NIES-4297@NIES4297
4047@Schmelling, N. M. & Bross, M.@What is holding back cyanobacterial research and applications? A survey of the cyanobacterial research community.@Nat. Commun.,@15,@6758 (article ID).@2024@@@NIES-843@NIES843
4048@Matsuzaki, R., Noël, M.-H., Kawachi, M.@Molecular identification of Micromonas (Mamiellales, Mamiellophyceae) strains from Japan maintained in the Microbial Culture Collection at the National Institute for Environmental Studies.@Microb. Resour. Syst.,@40,@47-51.@2024@@culture collection; marine microalga; picoplankton; prasinophyte; biodiversity@NIES-2528@NIES2528@NIES-1412@NIES1412@NIES-1411@NIES1411@NIES-2527@NIES2527@NIES-2529@NIES2529@NIES-3662@NIES3662@NIES-3664@NIES3664@NIES-1413@NIES1413@NIES-3660@NIES3660@NIES-3663@NIES3663@NIES-3661@NIES3661@NIES-3665@NIES3665@NIES-2530@NIES2530@NIES-4096@NIES4096
4049@Ohtani, S.@A taxonomic revision of the genus Netrium (Zygnematales, Chlorophyceae).@J. Sci. Hirohima Univ., Ser. B. Div.,@2,@1-51.@1990@@taxonomy; life cycle; Netrium; desmids; Chlorophyceae@NIES-4656@NIES4656@NIES-4657@NIES4657@NIES-4658@NIES4658@NIES-4655@NIES4655
4050@Uniyal, S., Singh, P., Singh, R. K., Tiwari, S. P.@Effects of Nostoc sp. inoculation on the yield and quality of a medicinal plant, Allium sativum.@J. Appl. Phycol.,@36,@3287–3300.@2024@@@NIES-4103@NIES4103
4051@Kim, E.-J., Doh, H., Eyun, S.@The occurrence of positive selection on BicA transporter of Microcystis aeruginosa.@Ecotox. Environ. Safe.,@283,@116795 (article ID).@2024@@BicA transport; Positive selection; CCMs; Microcystis aeruginosa; PAML@NIES-298@NIES298@NIES-843@NIES843@NIES-2481@NIES2481@NIES-2549@NIES2549
4052@Wang, Z. G., Yang, Z. H., Shishido, M., Daoudi, K., Hidaka, M., Tateno, H., Futai, E., Ogawa, T.@Microcystis viridis NIES-102 Cyanobacteria lectin (MVL) interacts with SARS-CoV-2 spike protein receptor binding domains (RBDs) via protein–protein interaction.@Int. J. Mol. Sci.,@25,@6696 (article ID).@2024@@@NIES-102@NIES102
4053@Fujiwara, T., Hirooka, S., Yamashita, S., Yagisawa, F., Miyagishima, S.@Development of a rapamycin-inducible protein-knockdown system in the unicellular red alga Cyanidioschyzon merolae.@Plant Physiol.,@196,@77–94.@2024@@@NIES-3377@NIES3377@NIES-4696@NIES4696
4054@Dayarathne, K., Ishikawa, T., Kadeer, A., Yamaguchi, M., Kawai-Yamada, M.@The effect of light availability and light wavelength on growth, 2-MIB biosynthesis, and 2-MIB-related gene expression in Pseudanabaena foetida var. intermedia.@Arch. Microbiol.,@Arch. Microbiol.,@367 (article ID).@2024@@Cyanobacteria; 2-MIB; Gene expression; Light-dependent@NIES-512@NIES512
4055@Takahashi, M., Karitani, Y., Yamada, R., Matsumoto, T., Ogino, H.@Co-utilization of microalgae and heterotrophic microorganisms improves wastewater treatment efficiency.@Appl. Microbiol. Biotechnol.,@108,@468 (article ID).@2024@@Green algae; Heterotrophic microorganisms; Microalgae; Wastewater treatment; Yeast@NIES-39@NIES39@NIES-1269@NIES1269
4056@Nozaki, H., Matsuzaki, R., Shimotori, K., Ueki, N., Heman, W., Mahakham, W., Yamaguchi, H., Tanabe, Y., Kawachi, M.@Two species of the green algae Volvox sect. Volvox from the Japanese ancient lake, Lake Biwa.@PLoS One,@19,@e0310549 (article ID).@2024@@@NIES-4258@NIES4258@NIES-4661@NIES4661@NIES-543@NIES543@NIES-2740@NIES2740@NIES-4021@NIES4021@NIES-4022@NIES4022@NIES-4662@NIES4662@NIES-4434@NIES4434@NIES-3874@NIES3874@NIES-2736@NIES2736@NIES-4259@NIES4259@NIES-4336@NIES4336@NIES-4337@NIES4337
4057@Sato, N., Sato, M., Wakazaki, M., Moriyama, T., Hirashima,T., Toyooka, K.@Chloroplasts with clefts and holes: a reassessment of the chloroplast shape using 3D FE-SEM cellular reconstruction of two species of Chlamydomonas.@Protoplasma,@262,@207–218.@2024@@Array tomography; Chlamydomonas; Chloroplast shape; Three-dimensional reconstruction; Lipid droplet topology@NIES-2202@NIES2202
4058@Koga, T., Hirakawa, S., Nakagawa, S., Ishibashi, Y., Kashiwabara, M., Miyawaki, T.@Systematization of a toxicity screening method based on a combination of chemical analysis and the delayed fluorescence algal growth inhibition test for use in emergency environmental surveys.@Environ. Sci. Pollut. Res.,@31,@55447-55461.@2024@@Algal growth inhibition test; Delayed fluorescence;Heavy rain;Toxicity screening;Environmental survey;Water quality criteria;Industrial pollution;Three-phase process@NIES-35@NIES35@NIES-981@NIES981
4059@Ramarui, K. & Li, Y.@Proteomics and phosphoproteomics analysis of Haematococcus pluvialis: An improved method to generate and interpret proteomics and phosphoproteomics data of a non-model species.@J. Appl. Phycol.,@36,@3243-3260.@2024@@Proteomics; Phosphoproteomics; Haematococcus pluvialis; Annotation; Non-model species; Functional enrichment@NIES-144@NIES144
4060@Aoki, J., Ozaki, T., Koshikawa, R., Sasaki, D., Kitajima, K., Yoshida, Y., Nakajima, H., Asayama, M.@Effective cultivation conditions and safety evaluation of filamentous cyanobacteria producing phycocyanins with antiglycation activities.@J. Biotechnol.,@391,@64-71.@2024@@Antioxidant; Antiglycation; Limnothrix; Phycocyanin; Pseudanabaena; Spirulina@NIES-39@NIES39
4061@Fukuda, M., Kinkawa, M., Hayashi, M.@Fed-batch cultivation of Euglena gracilis for the high-yield production and GPC-assisted molecular weight determination of paramylon.@Biosci. Biotechnol. Biochem.,@88,@206–211.@2024@@paramylon; Euglena gracilis; molecular weight@NIES-48@NIES48
4062@Zhang, S.-S., Xiong, J., Cui, J.-J., Ma, K.-L., Wu, W.-L., Li, Y., Luo, S., Gao, K., Dong, S.-H.@Lanthipeptides from the same core sequence: Characterization of a class II lanthipeptide synthetase from Microcystis aeruginosa NIES-88.@Org. Lett.,@24,@2226–2231.@2022@@@NIES-88@NIES88
4063@Asada, Y., Kamizato, R., Miyoshi, T., Akiba, M.@Competitive effects of Microcystis aeruginosa-produced organic matter on 2-methylisoborneol removal by powered activated carbon treatment under non-equilibrium conditions.@J. JSCE,@79,@23-25005 (article ID) (in Japanese with English summary).@2023@@Microcystis aeruginosa; Algal organic matter; Powdered activated carbon; 2-methylisoborneol; Competitive adsorption@NIES-87@NIES87@NIES-102@NIES102@NIES-604@NIES604@NIES-1053@NIES1053
4064@Oka, Y., Yoshida, M., Minoda, A., Leproux, P., Watanabe, M. M., Kano, H.@Label-free detection of polysulfides and glycogen of Cyanidium caldarium using ultra-multiplex coherent anti-Stokes Raman scattering microspectroscopy.@J. Raman Spectrosc.,@52,@2572-2580.@2021@@algae; CARS; microscopy; microspectroscopy; supercontinuum@NIES-2137@NIES2137
4065@Takebe, H., Tominaga, K., Isozaki, T., Watanabe, T., Yamamoto, K., Kamikawa, R., Yoshida, T.@Taxonomic difference in marine bloom-forming phytoplanktonic species affects the dynamics of both bloom-responding prokaryotes and prokaryotic viruses.@mSystems,@9,@e00949-23 (article ID).@2024@@phytoplankton bloom; prokaryotes; prokaryotic viruses; microcosm; Heterosigma akashiwo; Chaetoceros sp.@NIES-293@NIES293@NIES-3717@NIES3717
4066@Phan, C.-S., Ling, Z., Mehjabin, J. J., Matsuda, K., Prakoso, N., Umezawa, T., Wakimoto, T., Okino, T.@Doubly homologated tyrosine-containing peptides from the cyanobacterium Microcystis aeruginosa NIES-4285 and their biosynthesis.@J. Nat. Prod.,@87,@2629-2639.@2024@@@NIES-4285@NIES4285
4067@Mehjabin, J. J., Phan, C.-S., Okino, T.@Noducyclamides A1-A4, B1, and B2 from the Cyanobacterium Nodularia sp. NIES-3585.@J. Nat. Prod.,@87,@984-993.@2024@@@NIES-3585@NIES3585
4068@Hossain, Md. S. & Okino, T.@Cyanoremediation of heavy metals (As(V), Cd(II), Cr(VI), Pb(II)) by live cyanobacteria (Anabaena variabilis, and Synechocystis sp.): an eco-sustainable technology.@RSC Adv.,@14,@10452-10463.@2024@@@NIES-3758@NIES3758
4069@Phan, C.-S., Mehjabin, J. J., Anas, A. R. J., Hayasaka, M., Onoki, R., Wang, J., Umezawa, T., Washio, K., Morikawa, M., Okino, T.@Nostosin G and spiroidesin B from the cyanobacterium Dolichospermum sp. NIES-1697.@J. Nat. Prod.,@85,@2000-2005.@2022@@@NIES-1697@NIES1697
4070@Anas, A. R. J., Kisugi, T., Umezawa, T., Matsuda, F., Campitelli, M. R., Quinn, R. J., Okino, T.@Thrombin inhibitors from the freshwater cyanobacterium Anabaena compacta.@J. Nat. Prod.,@75,@1546-1552.@2012@@@NIES-835@NIES835
4071@Ota, S., Koshikawa, H., Kawachi, M.@Chapter 9 - Assessment of possible environmental impacts using flow-cytometric analysis of metal toxicity in marine phytoplankton.@In Deep-Sea Mining and the Water Column, Ed. Sharma, R., Springer, Cham,@@pp. 275–293.@2024@@Ecotoxicology; Cyanobacteria; Deep-sea mining; Flow cytometry; Heavy metal contaminant; Microalgae; On-chip Sort; Phytoplankton@NIES-981@NIES981
4072@Umesaka, K., Banba, M., Chiba, S., Fujita, Y.@Restoration of the functional nif gene cluster by complex recombination events during heterocyst development in the nitrogen-fixing cyanobacterium Calothrix sp. NIES-4101.@Plant Cell Physiol.,@65,@1050-1064.@2024@@Calothrix sp. NIES-4101; Cyanobacteria; Differentiation; Heterocysts; nif 4073@Meza-Padilla, I., McConkey, B. J., Nissimov, J. I.@Structural models predict a significantly higher binding affinity between the NblA protein of cyanophage Ma-LMM01 and the phycocyanin of Microcystis aeruginosa NIES-298 compared to the host homolog.@Virus Evol.,@10,@veae082 (article ID).@2024@@Cyanophage; non-bleaching A (NblA) protein; structural modeling; AlphaFold2; protein–protein docking; virus evolution; virus ecology; horizontal gene transfer (HGT)@NIES-298@NIES298
4074@Kim, M., Jung, J., Kim, W., Park, Y., Jeon, C. O., Park, W.@Extensive genomic rearrangement of catalase-Less cyanobloom-forming Microcystis aeruginosa in freshwater ecosystems.@J. Microbiol.,@62,@933–950.@2024@@Comparative genomics; Cyanobacterial bloom; Cyanobacterial metabolism; Genome plasticity; Microcystin; Oxidative stress@NIES-88@NIES88@NIES-2481@NIES2481@NIES-2549@NIES2549@NIES-298@NIES298@NIES-843@NIES843@NIES-102@NIES102@NIES-204@NIES204
4075@Nozaki, H., Matsuzaki, R., Mori, F., Sato, M., Yamaguchi, H., Higashiyama, T., Kawachi, M., Tanabe, Y.@Description of four new species of Mychonastes (Chlorophyceae) from Japanese freshwater habitats based on molecular and morphological data.@Phycol. Res.,@73,@35-48.@2025@@freshwater green alga; molecular phylogeny; morphology; Mychonastes; Mychonastes ariiae sp. nov.; Mychonastes gigas sp. nov.; Mychonastes kasaiae sp. nov.; Mychonastes takamurae sp. nov.; species; taxonomy@NIES-2334@NIES2334@NIES-2336@NIES2336@NIES-2339@NIES2339@NIES-2340@NIES2340@NIES-2341@NIES2341@NIES-2897@NIES2897@NIES-2900@NIES2900@NIES-3742@NIES3742@NIES-3743@NIES3743@NIES-4546@NIES4546@NIES-4547@NIES4547
4076@Sweiss, M., Hasan, M., Odat, N.@Develop strain-specific simple sequence repeat (SSR) markers for Chlorella sorokiniana.@J. Microbiol. Biotechnol.,@34,@1848-1856.@2024@@Chlorella; simple sequence repeats; microsatellites; strain-specific@NIES-2169@NIES2169
4077@Yamaguchi, H., Nakayama, T., Kai, A., Inouye, I.@Taxonomy and phylogeny of a new kleptoplastidal dinoflagellate, Gymnodinium myriopyrenoides sp. nov. (Gymnodiniales, Dinophyceae), and its cryptophyte symbiont.@Protist,@162,@650-667.@2011@@dinoflagellate; Gymnodinium myriopyrenoides; kleptochloroplast; phylogeny; taxonomy@NIES-706@NIES706@NIES-712@NIES712@NIES-713@NIES713
4078@Yang, H. W., Song, J.-Y., Song, J.J., Kim, Y. W., Rockwell, N., Kim, W., Kim, H., Lagarias,J. C., Park, Y.-I.@Dual-Cys bacteriophytochromes: intermediates in cyanobacterial phytochrome evolution?@FEBS J.,@292,@1197-1216.@2025@@crystal structure; cyanobacterial; phytochromes; dual-cysteine; bacteriophytochromes; site-directed; mutagenesis@NIES-2107@NIES2107
4079@Haraguchi, Y., Okamoto, Y., Asahi, T., Shimizu, T.@Nitrogenous fertilizer-free microalgal culture using nitrogen-fixing cyanobacteria-derived extracts for sustainable food production.@Phycol. Res.,@73,@60-69.@2025@@ammonium; cultured meat; nitrogen-fixation; nitrogenous fertilizer reduction; sustainability@NIES-2130@NIES2130
4080@Chen, S., Imai, I., Sakai, R., Fujita, M.@Chlorophyta growth promotion by the plant symbiotic cyanobactericidal bacterium Pseudomonas sp. and its active substances.@Fish. Sci.,@91,@165-173.@2025@@Chlorophyta; Plant hormone; Cyanobactericidal bacteria; Indole-3-acetic acid; Pseudomonas@NIES-19@NIES19@NIES-298@NIES298@NIES-4281@NIES4281@NIES-4282@NIES4282
4081@Manawadu, B., Senavirathna, M. D. H. J., Fujino, T.@Individual and combined effects of ionophore antibiotics monensin and lasalocid on growth, oxidative stress and antioxidant responses of Microcystis aeruginosa.@Water Sci. Technol.,@90,@2585–2601.@2024@@algal blooms; ionophore antibiotics; lasalocid; Microcystis aeruginosa; monensin; oxidative stress@NIES-111@NIES111
4082@Yancey, C. E., Hart, L., Lad, A. C., Birbeck, J. A., Song, S. L., Mohamed, O. G., Fribley, A. M., Haller, S. T., Tripathi, A., Kennedy, D. J.@Synthesis of a truncated microcystin tetrapeptide molecule from a partial mcy gene cluster in Microcystis cultures and blooms.@Environ. Sci. Technol.,@45,@19936-19947.@2024@@harmful algal blooms; Lake Erie; secondary metabolites; tetrapeptide; multiomics@NIES-843@NIES843
4083@Dong, Y. T., Krishnamoorthi, S., Tan, G. Z. H., Poh, Z. Y., Urano, D.@Co-option of plant gene regulatory network in nutrient responses during terrestrialization.@Nat. Plants,@10,@1955–1968.@2024@@@NIES-67@NIES67@NIES-68@NIES68@NIES-2285@NIES2285
4084@Asaeda, T., Rahman, M., Akimoto, J., Nohara, A., Imamura, F.@Hydrogen peroxide concentration as an indicator of cyanobacterial response to diurnal variation in light intensity.@Sci Rep,@14,@29046 (article ID).@2024@@Cyanobacteria; Hydrogen peroxide; Photoinhibition; Diurnal behaviors; Antioxidant activity; Oxidative stress@NIES-111@NIES111@NIES-2119@NIES2119
4085@Gu, Q. Y., Takayama, Y., Natori, N., Hirahara, M., Chowdhary, A. K., Toda, T.@A novel stepwise salinity acclimation method to improve the survival of freshwater microalgae Haematococcus lacustris in seawater salinity.@Bioprocess. Biosyst. Eng.,@48,@43-52.@2025@@Haematococcus lacustris; Stepwise salinity acclimation; Survival; Astaxanthin; Live microalgal diets@NIES-144@NIES144
4086@Kodama, Y., & Fujishima, M.@Effects of the symbiotic Chlorella variabilis on the host ciliate Paramecium bursaria phenotypes.@Microorganisms,@12,@2537 (article ID).@2024@@Chlorella sp.; Chlorella variabilis; cytoplasmic crystal; digestive vacuole; endosymbiosis; heat tolerance; mitochondria; Paramecium bursaria; perialgal vacuole; photoaccumulation; trichocyst@NIES-2169@NIES2169
4087@Takeda, S.@Growth responses of coastal phytoplankton to continuous supply of low nitric oxide concentrations during the light period.@Bull. Fac. Fish., Nagasaki Univ.,@104,@1-10.@2024@@phytoplankton; nitric oxide; growth; fed-batch culture; coastal waters@NIES-113@NIES113@NIES-323@NIES323
4088@Mogi, Y., Matsuo, Y., Kondo, Y., Higashiyama, T., Inada, T., Yoshida, Y.@Genome-wide changes of protein translation levels for cell and organelle proliferation in a simple unicellular alga.@Proc. Jpn. Acad. Ser. B-Phys. Biol. Sci.,@101,@41-53.@2025@@cell and organelle division; ribosome profiling; mitochondrial nucleoid protein; mitochondrial division protein; Cyanidioschyzon merolae; eukaryote evolvability@NIES-3377@NIES3377@NIES-4696@NIES4696
4089@Karimi-Fard, A., Saidi, A., Tohidfar, M., Emami, S. N.@Integrative bioinformatics approaches reveal key hub genes in cyanobacteria: insights from Synechocystis sp. PCC 6803 and Geminocystis sp. NIES-3708 under abiotic stress conditions.@Genes Genom.,@47,@383–397.@2025@@Environmental stresses; Meta-analysis; WGCNA; Machine learning; Gene expression; Cyanobacteria@NIES-3708@NIES3708
4090@Tokodi, N., Łobodzińska, A., Klimczak, B., Antosiak, A., Młynarska, S., Šulčius, S., Avrani, S., Yoshida, T., Dziga, D.@Proliferative and viability effects of two cyanophages on freshwater bloom-forming species Microcystis aeruginosa and Raphidiopsis raciborskii vary between strains.@Sci Rep,@15,@3152 (article ID).@2025@@Harmful cyanobacterial blooms; Freshwater cyanophages; Virus-host interactions; Optimal and suboptimal hosts; Microcystis aeruginosa; Raphidiopsis raciborskii@NIES-298@NIES298
4091@Senavirathna, M. D. H. J. & Yan, H.@Flow velocity and light intensity combination is important for Microcystis aeruginosa physical suppression.@Water Environ. Res.,@96,@e10991 (article ID).@2024@@antioxidant capacity; critical velocity; cyanobacteria bloom control; flow velocity simulation; oxidative stress@NIES-111@NIES111
4092@Mutoti, M. I., Gumbo, J. R., Khwathisi, A., Jideani, A. I. O.@Newly isolated strains of potentially microcystin-producing cyanobacteria in potable water: case study of Mawoni village, South Africa.@Front. Environ. Sci.,@12,@@2024@@cyanotoxins; drinking water; human health; molecular identification; microcystins@NIES-90@NIES90@NIES-933@NIES933@NIES-1062@NIES1062@NIES-3787@NIES3787
4093@Nakamura, M.@緑藻Monactinus simplexにおけるCYC6とPCY1の銅による発現制御 (Copper-regulated expression of CYC6 and PCY1 in the green alga Monactinus simplex.)@Toho Liberal Arts Review,@55,@27-37 (in Japanese). @2023@@@NIES-215@NIES215
4094@Nakamura, M.@Reciprocal expression of PCY1 and CYC6 in Pseudopediastrum boryanum and Pediastrum duplex (Chlorophyceae) is regulated via a common transcription mechanism under copper-deficient condition.@Toho Liberal Arts Review,@50,@81-97.@2018@@Chlorophyceae; Copper response elements; Cytochrome _c6; Gene expression; Hydrodictyaceae; GTAC motif; Pediastrum; Plastocyanin@NIES-213@NIES213@NIES-301@NIES301
4095@Nakamura, M.@Plastocyanin and cytochrome _c6 from green algae.@Toho Liberal Arts Review,@54,@105-116 (in Japanese). @2022@@@NIES-213@NIES213@NIES-215@NIES215@NIES-301@NIES301@NIES-2863@NIES2863
4096@Tomioka, N., Abe, Y., Matsuda, Y.@Diffusion of individual nanoparticles in cylindrical diatom frustule.@Nanoscale Adv.,@6,@5579-5584.@2024@@@NIES-3951@NIES3951
4097@Nagao, R., Ogawa, H., Suzuki, T., Dohmae, N., Kato, K., Nakajima, Y., Shen, J.-R.@Biochemical evidence for the diversity of LHCI proteins in PSI-LHCI from the red alga Galdieria sulphuraria NIES-3638.@Photosynth. Res.,@163,@14 (article ID).@2025@@Galdieria sulphuraria NIES-3638; PSI-LHCI; Red alga; RedCAP@NIES-3638@NIES3638
4098@Harada, R., Hirakawa, Y., Yabuki, A., Kim, E., Yazaki, E., Kamikawa, R., Nakano, K., Eliáš, M., Inagaki, Y.@Encyclopedia of family a DNA polymerases localized in organelles: Evolutionary contribution of bacteria including the proto-mitochondrion.@Mol. Biol. Evol.,@41,@msae01 (article ID).@2024@@DNA polymerase; endosymbiosis; lateral gene transfer; last eukaryotic common ancestor; mitochondria, plastids@NIES-1390@NIES1390
4099@Narasimhan, A. L., Lee, N., Kim, S., Kim, . YE., Christabel, C., Yu, H., Kim, E. J., Oh, Y. K.@Enhanced astaxanthin production in Haematococcus lacustris by electrochemical stimulation of cyst germination.@Bioresour. Technol.,@411,@131301 (article ID).@2024@@Haematococcus lacustris; Electrogermination; Life cycle; Lipid peroxidation; Biorefinery; Renewable electricity@NIES-144@NIES144
4100@Kanno, H. et al.@High-throughput fluorescence lifetime imaging flow cytometry.@Nat. Commun.,@15,@7376 (article ID).@2024@@@NIES-48@NIES48
4101@Saito, M., Arai, F., Yamanishi, Y., Sakuma, S.@Spatiotemporally controlled microvortices provide advanced microfluidic components.@Proc. Natl. Acad. Sci. U. S. A.,@121,@e2306182121 (article ID).@2024@@microfluidics; vortex; flow control; single-cell isolation@NIES-48@NIES48
4102@Yoshida, C., Akiyama, Y., Iwazumi, K., Osanai, T., Ito, S.@L-Lactate production from carbon dioxide in the red alga Cyanidioschyzon merolae.@Algal Res.,@80,@103526 (article ID).@2024@@Anaerobic cultivation; Cyanidioschyzon merolae; Fermentation; Lactate; Microalgae@NIES-3377@NIES3377@NIES-4696@NIES4696
4103@Hirata, R., Mogi, Y., Takahashi, K., Nozaki, H., Higashiyama, Y., Yoshida, Y.@Simple prerequisite of presequence for mitochondrial protein import in the unicellular red alga Cyanidioschyzon merolae.@J. Cell Sci.,@137,@jcs262042 (article ID).@2024@@Mitochondrial presequence; Mitochondrial protein import; Monomitochondrial eukaryote; Unicellular red alga@NIES-3377@NIES3377@NIES-4696@NIES4696
4104@Yoneda, K., Kobayashi, C., Araie, H., Morita, R., Harada, R., Shigeta, Y., Endo, H., Maeda, Y., Suzuki, I.@Characterization of delta-7 alkenone desaturase in haptophyte Gephyrocapsa huxleyi through heterologous expression in Tisochrysis lutea.@Mar. Biotechnol.,@27,@44 (article ID).@2025@@Gephyrocapsa huxleyi; Alkenones; Desaturase; Transformation; Heterologous expression; Tisochrysis lutea@NIES-837@NIES837
4105@Cui, Y. S., Wong, S. K., Kaneko, R., Mouri, A., Tada, Y., Nagao, I., Chun, S. J., Lee, H. G., Ahn, C. Y., Oh, H. M., Sato-Takabe, Y., Suzuki, K., Fukuda, H., Nagata, T., Kogure, K., Hamasaki, K.@Distribution of dimethylsulfoniopropionate degradation genes reflects strong water current dependencies in the Sanriku Coastal region in Japan: From mesocosm to field study.@Front. Microbiol.,@11,@1372 (article ID).@2020@@dimethyl sulfide; dimethylsulfoniopropionate; dddD gene; dddP gene; dmdA gene; mesocosm; Sanriku Coast@NIES-353@NIES353
4106@Prihanto, A. A., Nursyam, H., Nurdiani, R., Muyasyaroh, H., Hayati, R. L., Miftacurrochmah, A.@Modeling, binding site, and immunogenicity analysis of genes encoding L-asparaginase from Arthrospira platensis NIES 39.@Int. J. Appl. Pharm.,@15,@98-103.@2023@@Arthrospira platensis; Immune response; L-asparaginase; Modeling@NIES-39@NIES39
4107@Hilzinger, J. M., Friedline, S., Sivanandan, D., Cheng, Y. F., Yamazaki, S., Clark, D. S., Skerker, J. M., Arkin, A. P.@Acetaminophen production in the edible, filamentous cyanobacterium Arthrospira platensis.@Biotechnol. Bioeng.,@122,@44-52.@2025@@Arthrospira platensis; cyanobacteria; spirulina@NIES-39@NIES39
4108@Katayama, N., Iwazumi, K., Suzuki, H., Osanai, T., Ito, S.@Malic enzyme, not malate dehydrogenase, mainly oxidizes malate that originates from the tricarboxylic acid cycle in cyanobacteria.@mBio,@13,@e02187-22 (article ID).@2022@@aerobic respiration; cyanobacteria; malate dehydrogenase; malic enzyme; tricarboxylic acid cycle@NIES-39@NIES39
4109@Fekrat, F., Shahbazi, M., Hejazi, M. A., Nami, B.@Optimization of light conditions by affecting the growth and production of C-Phycocyanin in Spirulina platensis microalgae.@J. Plant Proc. Funct.,@11,@79-94.@2022@@Biomass; Microalgae; Phycocyanin; Spirulina; super LED lights@NIES-39@NIES39
4110@Takatsuka, S., Miyamoto, N., Sato, H., Morino, Y., Kurita, Y., Yabuki, A., Chen, C., Kawagucci, S.@Millisecond-scale behaviours of plankton quantified in vitro and in situ using the Event-based Vision Sensor.@Ecol. Evol.,@14,@e70150 (article ID).@2024@@computer vision; deep sea; dynamic vision sensor; event camera; high-speed camera; marineparticles@NIES-1@NIES1@NIES-5@NIES5
4111@Ueki, N. & Wakabayashi, K.@Multicellularity and increasing Reynolds number impact on the evolutionary shift in flash-induced ciliary response in Volvocales.@BMC Ecol. Evol.,@24,@119 (article ID).@2025@@@NIES-571@NIES571@NIES-544@NIES544@NIES-545@NIES545@NIES-564@NIES564@NIES-574@NIES574@NIES-728@NIES728@NIES-730@NIES730@NIES-731@NIES731@NIES-882@NIES882@NIES-1711@NIES1711@NIES-717@NIES717@NIES-576@NIES576@NIES-868@NIES868@NIES-3780@NIES3780@NIES-3785@NIES3785@NIES-2569@NIES2569@NIES-4270@NIES4270@NIES-891@NIES891@NIES-867@NIES867@NIES-4127@NIES4127@NIES-4662@NIES4662@NIES-734@NIES734@NIES-4029@NIES4029
4112@Tsai, P.-C., Kato, K., Shen, J.-R., Akita, F.@Structural study of the chlorophyll between Lhca8 and PsaJ in an Antarctica green algal photosystem I-LHCI supercomplex revealed by its atomic structure.@Biochim. Biophys. Acta-Bioenerg.,@1866,@149543 (article ID).@2025@@Photosystem I; Light harvesting; Coccomyxa subellipsoidea; Membrane protein complex; Excitation transfer pathway@NIES-2166@NIES2166
4113@Liu, Y. & Wei, D.@High-efficient CO₂-to-protein bioconversion by oleaginous Coccomyxa subellipsoidea using light quality shift and nitrogen supplementation strategy.@Chem. Eng. J.,@473,@145166 (article ID).@2023@@Coccomyxa subellipsoidea; CO2 fixation; Protein production; Light quality shift; Nitrogen supplementation; Transcription analysis@NIES-2166@NIES2166
4114@Yang, R., Chen, G., Peng, H., Wei, D.@Identification and Characterization of MiRNAs in Coccomyxa subellipsoidea C-169.@Int. J. Mol. Sci.,@20,@3448 (article ID).@2019@@Coccomyxa subellipsoidea C-169; miRNA; lipid metabolism; transcription/translation factor; CO2 supplementation@NIES-2166@NIES2166
4115@Anny, M. F. A., Tuhin, T. R., Liu, X., Yoshiyama, K. Akizuki, S., Toda, T., Ban, S.@Enhancement of β-glucan production in two Arthrospira species cultivating in anaerobic digestion effluent of water hyacinth.@Biochem. Eng. J.,@203,@109206 (article ID).@2024@@β-glucan; Water hyacinth; Spirulina; Anaerobic digestion effluent; Nutrient removal@NIES-39@NIES39
4116@Kurtović, K., Vosolsobě, S., Nedvěd, D., Müller, K., Dobrev, P. I., Schmidt, V., Piszczek, P., Kuhn, A., Smoljan, A., Fisher, T. J., Weijers, D., Friml, J., Bowman, J. L., Petrásek, J.@The role of indole-3-acetic acid and characterization of PIN transporters in complex streptophyte alga Chara braunii.@New Phytol.,@246,@1066-1083.@2025@@auxin transport; Chara; indole-3-acetic acid; plant evolution; streptophytes@NIES-1604@NIES1604
4117@Shikata, T., Yuasa, K., Kitatsuji, S., Yano, R.@Vegetative‑cell morphology changes depending on nutritional conditions in Japanese strains of the noxious red‑tide microalgae Chattonella.@Fish. Sci.,@91,@481-494.@2025@@Cell size; Diurnal variation; Nutrient; Strain@NIES-1@NIES1
4118@Popin, R. V., Alvarenga, D. O., Castelo-Branco, R., Fewer, D. P., Sivonen, K.@Mining of cyanobacterial genomes indicates natural product biosynthetic gene clusters located in conjugative plasmids.@Front. Microbiol.,@12,@684565 (article ID).@2021@@cyanobacteria; conjugation; genome mining; toxins; geosmin@NIES-25@NIES25@NIES-2111@NIES2111@NIES-4106@NIES4106
4119@Giannakopoulos, C., Panou, M., Gkelis, S.@Phylogenetic analysis of Nostocales (Cyanobacteria) based on two novel molecular markers, implicated in the nitrogenase biosynthesis.@FEMS Microbiol. Lett.,>,@371,@fnad136 (article ID).@2024@@nitrogenase evolution; phylogeny; taxonomy; novel markers; nif genes; ecophysiological characters@NIES-21@NIES21@NIES-23@NIES23@NIES-2098@NIES2098@NIES-2111@NIES2111@NIES-3756@NIES3756@NIES-4074@NIES4074@NIES-4106@NIES4106@NIES-4103@NIES4103@NIES-25@NIES25
4120@Zhang, K., Wan, M., Bai, W., Bao, Z., Duan, X., Wang, W., Fan, F., Li, Y.@Optimization and scale-up of the spray drying process for Euglena gracilis.@Algal Res.,@82,@103640 (article ID).@2024@@E. gracilis; Spray drying; Pilot-scale; Production-scale; Scale-up@NIES-48@NIES48
4121@Lee, V., Meza-Padilla, I., Nissimov, J. I.@Virus infection of a freshwater cyanobacterium contributes significantly to the release of toxins through cell lysis.@Microorganisms,@13,@486 (article ID).@2025@@harmful algal bloom; Microcystis aeruginosa; microcystin; cyanophage; virus infection@NIES-298@NIES298
4122@Ahmad, N. A. & Sinang, S. C.@Using phycocyanin as cyanobacterial biomass indicator to determine potentially- Toxic bloom: an example from a Malaysia reservoir.@EnvironmentAsia,@17,@116-130.@2024@@osynthetic pigments@NIES-89@NIES89
4123@Hu, W., Teng, Y., Wang, X., Xu, Y., Sun, Y., Wang, H., Li, Y., Dai, S., Zhong, M., Luo, Y.@Mixotrophic cyanobacteria are critical active diazotrophs in polychlorinated biphenyl-contaminated paddy soil.@ISME Commun.,@5,@ycae160 (article ID).@2025@@active diazotrophs; cyanobacteria; PCB contamination; paddy soil@NIES-4074@NIES4074
4124@Maeda, S., Koroki, T., Ichikawa, K., Tanaka, H.@Initiatives to produce biofuel using microalgae.@MAZDA TECHNICAL REVIEW,@41,@105-111 (in Japanese with English summary).@2025@@Algae Biofuel; Alternative fuel; Energy manufacturing@NIES-2145@NIES2145
4125@La Rocca, R., Kato, K., Tsai, P.-C., Nakajima, Y., Akita, F., Shen, J.-R.@Structure of a photosystem II-FCPII supercomplex from a haptophyte reveals a distinct antenna organization.@Nat. Commun.,@16,@4175 (article ID).@2025@@@NIES-8@NIES8
4126@Boivin, S., Nagaoka, H., Fujioka, T.@Real-time detection of 3–8-µm microbial particles in sand filter effluent as a surrogate indicator of Cryptosporidium parvum oocysts.@Water Res. X,@27,@100345 (article ID).@2025@@Rapid sand filter; Water treatment; Integrity monitoring; Protozoa; Water quality management@NIES-642@NIES642
4127@Chen, Y., Xiong, Q., Dai, Q., Liu, G.@Six newly sequenced chloroplast genomes from quadriflagellate Chlamydomonadales (Chlorophyceae): Phylogeny and comparative genome analyses.@Genome Biol. Evol.,@17,@evaf074 (article ID).@2025@@quadriflagellate chlamydomonadaleans; phylogenomics; Corbierea; 4128@Kawaguchi, Y. W. & Yamamichi, M.@A single episode of sexual reproduction can produce large variation in population growth rates under dual stressors.@J. Evol. Biol.,@@@2025@@Adaptation; evolutionary rescue; multiple stressors; population biology; sex; transgressive segregation@NIES-64@NIES64@NIES-65@NIES65
4129@Guenachi. B., Mefti, H. K., Benfares, R., Abderrahmani, K., Boudjema, K., Achour, H. Y., Toumatia, O., Bidin, A., Lamar, L.@Morphological and molecular identification of a new halotolerant cyanobacterial strain, Limnospira fusiformis TL03, isolated from Telamine Lake in the northwest of Algeria.@Acta Bot. Bras.,@39,@e20230137 (article ID).@2025@@@NIES-204@NIES204
4130@Shioura, Y., Kenzaki, A., Okunishi, S., Tomoda, T., Maeda, H.@Influence of environmental factors on the feeding behavior of reared Japanese eel Anguilla japonica preleptocephali given picocyanobacteria.@Aquac. Int.,@33,@312 (article ID).@2025@@Density-dependent; Feeding behavior; Preleptocephalus; Light-independent; Picocyanobacteria; Salinity@NIES-976@NIES976
4131@Okazaki, K., Hori, K., Iwai, M., Kurita, T., Shimizu, S., Nomura, S., Saito, F., Maeda, S., Takami, A., Yamamoto, T., Ohta, H., Sakamoto, A.@Knockout of an SPX-related gene for polyphosphate synthetase accelerates phosphate starvation responses in the oleaginous microalga Nannochloropsis oceanica.@J. Exp. Bot.,@@eraf171.@2025@@@NIES-2145@NIES2145
4132@Pimentel, J. d. M., Nunes, Á. C., Pereira, D. A., Giani, A.@Cyanobacteria gene expression in response to environmental stress and seasonal changes.@World J. Microbiol. Biotechnol.,@41,@163 (article ID).@2025@@Cyanopeptides; Eutrophication; Nitrogen; Phosphorus; Seasonality; Tropical reservoirs@NIES-98@NIES98@NIES-843@NIES843
4133@Martin, R. M., Denison, E. R., Pound, H. L., Barnes, E. A., Chaffin, J. D., Wilhelm, S. W.@Mitomycin C eliminates cyanobacterial transcription without detectable prophage induction in a Microcystis-dominated harmful algal bloom in Lake Erie.@Microbiol. Spectr.,@13,@e0287224 (article ID).@2025@@lysogeny; Microcystis; cyanophages; bacteriophages; cyanobacteria@NIES-298@NIES298@NIES-88@NIES88
4134@Carrillo-Carrasco, V. P., van Galen, M., Bronkhorst, J., Mutte, S., Kohlen, W., Sprakel, J., Hernández-García, J., Weijers, D.@Auxin and tryptophan trigger common responses in the streptophyte alga Penium margaritaceum.@Curr. Biol.,@5,@2078-2087.@2025@@auxin; auxin response; Penium margaritaceum; evolution; tryptophan; streptophyte algae@NIES-217@NIES217