Basic Information
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CGSNL 遺伝子シンボル
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NAS2
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遺伝子シンボルシノニム
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OsNAS2, OsNAS1
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CGSNL 遺伝子名
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NICOTIANAMINE SYNTHASE 2
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遺伝子名シノニム
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rice nicotianamine synthase2, NA synthase gene 2, Nicotianamine synthase 2, S-adenosyl-L-methionine:S-adenosyl-L-methionine:S-adenosyl-methionine 3-amino-3-carboxypropyltransferase 2, NA synthase 2
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タンパク質名
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NICOTIANAMINE SYNTHASE 2
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対立遺伝子
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染色体番号
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3
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解説
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The nicotianamine is a crucial component of the iron acquisition apparatus of graminaceous plants. EC=2.5.1.43 A2XFU5(indica). Q10MI9(japonica). AU176507. OsNAS1 in Sanchez-Sanuy et al. 2019. TO:0006049: iron concentration. TO:0006053: zinc concentration. GO:1990641: response to iron ion starvation.
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形質クラス
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生化学的性質
耐性、抵抗性 - ストレス耐性
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発現
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Sequence/Locus
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cDNA Accession No.
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AK112011
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MSU ID
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LOC_Os03g19420.2
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RAP ID
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Os03g0307200
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Links
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Oryzabase Chromosome View
(
IRGSP 1.0
/
Build5
)
RAP-DB
(
IRGSP 1.0
/
Build5
)
Related IDs List (
IRGSP 1.0
/
Build5
)
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INSD Accession List (Test version)
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Link to INSD Accession List
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マップ
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位置情報(cM)
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リンケージマップ
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Classical linkage map
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文献
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Wang W., Shinwari K.I., Zhang H., Zhang H., Dong L., He F., Zheng L.
Int J Mol Sci 2022 23(23)
The bHLH Transcription Factor OsbHLH057 Regulates Iron Homeostasis in Rice.
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Cao L., Gao Y., Yu J., Niu S., Zeng J., Yao Q., Wang X., Bu Z., Xu T., Liu X., Zhu Y.
Plant Physiol. Biochem. 2021 158 275-283
Streptomyces hygroscopicus OsiSh-2-induced mitigation of Fe deficiency in rice plants.
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Yang A., Li Q., Chen L., Zhang W.H.
J. Exp. Bot. 2020
A rice small GTPase, OsRab6a, is involved in the regulation of grain yield and iron nutrition in response to CO2 enrichment.
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Liang G., Zhang H., Li Y., Pu M., Yang Y., Li C., Lu C., Xu P., Yu D.
J Integr Plant Biol 2020 62(5) 668-689
Oryza sativa FER-LIKE FE DEFICIENCY-INDUCED TRANSCRIPTION FACTOR (OsFIT/OsbHLH156) interacts with OsIRO2 to regulate iron homeostasis.
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Wang S., Li L., Ying Y., Wang J., Shao J.F., Yamaji N., Whelan J., Ma J.F., Shou H.
New Phytol. 2020 225(3) 1247-1260
A transcription factor OsbHLH156 regulates Strategy II iron acquisition through localising IRO2 to the nucleus in rice.
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Sánchez-Sanuy F., Peris-Peris C., Tomiyama S., Okada K., Hsing Y.I., San Segundo B., Campo S.
BMC Plant Biol. 2019 19(1) 563
Osa-miR7695 enhances transcriptional priming in defense responses against the rice blast fungus.
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Aung M.S., Kobayashi T., Masuda H., Nishizawa N.K.
Physiol Plant 2018
Rice HRZ ubiquitin ligases are crucial for response to excess iron.
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Andrés-Bordería A., Andrés F., Garcia-Molina A., Perea-García A., Domingo C., Puig S., Peñarrubia L.
Plant Mol. Biol. 2017
Copper and ectopic expression of the Arabidopsis transport protein COPT1 alter iron homeostasis in rice (Oryza sativa L.).
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Zhang H., Li Y., Yao X., Liang G., Yu D.
Plant Physiol. 2017 175(1) 543-554
POSITIVE REGULATOR OF IRON HOMEOSTASIS1, OsPRI1, Facilitates Iron Homeostasis.
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Masuda H., Shimochi E., Hamada T., Senoura T., Kobayashi T., Aung M.S., Ishimaru Y., Ogo Y., Nakanishi H., Nishizawa N.K.
PLoS ONE 2017 12(3) e0173441
A new transgenic rice line exhibiting enhanced ferric iron reduction and phytosiderophore production confers tolerance to low iron availability in calcareous soil.
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Wang B., Wei H., Xue Z., Zhang W.H.
Ann. Bot. 2017 119(6) 945-956
Gibberellins regulate iron deficiency-response by influencing iron transport and translocation in rice seedlings (Oryza sativa).
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Moreno-Moyano LT., Bonneau J.P., Sánchez-Palacios JT., Tohme J., Johnson A.A.
Front Plant Sci 2016 7 1463
Association of Increased Grain Iron and Zinc Concentrations with Agro-morphological Traits of Biofortified Rice.
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Tan S., Liu F., Pan X.X., Zang Y.P., Jin F., Zu W.X., Qi X.T., Xiao W., Yin L.P.
Sci Rep 2016 6 25485
CSN6, a subunit of the COP9 signalosome, is involved in early response to iron deficiency in Oryza sativa.
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Yang A., Zhang W.H.
Plant Cell Physiol. 2016 57(6) 1271-80
A Small GTPase, OsRab6a, is Involved in the Regulation of Iron Homeostasis in Rice.
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Kobayashi T., Itai R.N., Senoura T., Oikawa T., Ishimaru Y., Ueda M., Nakanishi H., Nishizawa N.K.
Plant Mol. Biol. 2016 91(4-5) 533-47
Jasmonate signaling is activated in the very early stages of iron deficiency responses in rice roots.
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Bashir K., Ishimaru Y., Itai R.N., Senoura T., Takahashi M., An G., Oikawa T., Ueda M., Sato A., Uozumi N., Nakanishi H., Nishizawa N.K.
Plant Mol. Biol. 2015 88(1-2) 165-76
Iron deficiency regulated OsOPT7 is essential for iron homeostasis in rice.
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Hu B., Wang W., Deng K., Li H., Zhang Z., Zhang L., Chu C.
Front Plant Sci 2015 6 188
MicroRNA399 is involved in multiple nutrient starvation responses in rice.
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Nozoye T.a, Nagasaka S.a c, Bashir K.a d, Takahashi M.a e, Kobayashi T.b, Nakanishi H.a, Nishizawa N.K.a b
Plant Journal 2014 77 246-260
Nicotianamine synthase 2 localizes to the vesicles of iron-deficient rice roots, and its mutation in the YXXphi or LL motif causes the disruption of vesicle formation or movement in rice
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Agarwal S., Tripura Venkata VG., Kotla A., Mangrauthia S.K., Neelamraju S.
Gene 2014 546(2) 430-6
Expression patterns of QTL based and other candidate genes in Madhukar × Swarna RILs with contrasting levels of iron and zinc in unpolished rice grains.
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Nozoye T., Tsunoda K., Nagasaka S., Bashir K., Takahashi M., Kobayashi T., Nakanishi H., Nishizawa N.K.
Plant Signal Behav 2014 9
Rice nicotianamine synthase localizes to particular vesicles for proper function.
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Kobayashi T.a b, Nakanishi Itai R.c, Nishizawa N.K.b
Rice 2014 7
Iron deficiency responses in rice roots
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Yang A., Li Y., Xu Y., Zhang W.H.
J. Exp. Bot. 2013 64(16) 5009-20
A receptor-like protein RMC is involved in regulation of iron acquisition in rice.
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Nozoye T., Nagasaka S., Bashir K., Takahashi M., Kobayashi T., Nakanishi H., Nishizawa N.K.
Plant J. 2013
Nicotianamine synthase 2 localizes to the vesicles of iron-deficient rice roots, and its mutation in the YXXphi or LL motif causes the disruption of vesicle formation or movement in rice.
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Lee S., Kim Y.S., Jeon U.S., Kim Y.K., Schjoerring J.K., An G.
Mol. Cells 2012 33(3) 269-75
Activation of Rice nicotianamine synthase 2 (OsNAS2) enhances iron availability for biofortification.
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Suzuki M., Bashir K., Inoue H., Takahashi M., Nakanishi H., Nishizawa N.K.
Rice (N Y) 2012 5 9
Accumulation of starch in Zn-deficient rice
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Anuradha K., Agarwal S., Rao Y.V., Rao K.V., Viraktamath B.C., Sarla N.
Gene 2012 508(2) 233-40
Mapping QTLs and candidate genes for iron and zinc concentrations in unpolished rice of Madhukar×Swarna RILs.
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Wang L., Ying Y., Narsai R., Ye L., Zheng L., Tian J., Whelan J., Shou H.
Plant Cell Environ. 2012 36(1) 224-36.
Identification of OsbHLH133 as a regulator of iron distribution between roots and shoots in Oryza sativa.
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Johnson A.A., Kyriacou B., Callahan D.L., Carruthers L., Stangoulis J., Lombi E., Tester M.
PLoS ONE 2011 6(9) e24476
Constitutive overexpression of the OsNAS gene family reveals single-gene strategies for effective iron- and zinc-biofortification of rice endosperm.
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Ishimaru Y., Masuda H., Bashir K., Inoue H., Tsukamoto T., Takahashi M., Nakanishi H., Aoki N., Hirose T., Ohsugi R., Naoko K Nishizawa
Plant J. 2010 62(3) 379-90
Rice metal-nicotianamine transporter, OsYSL2, is required for the long-distance transport of iron and manganese.
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Kobayashi T,Itai RN,Ogo Y,Kakei Y,Nakanishi H,Takahashi M,Nishizawa NK
Plant J. 2009 60(6) 948-61
The rice transcription factor IDEF1 is essential for the early response to iron deficiency, and induces vegetative expression of late embryogenesis abundant genes.
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Kobayashi T,Ogo Y,Itai RN,Nakanishi H,Takahashi M,Mori S,Nishizawa NK
Proc. Natl. Acad. Sci. U.S.A. 2007 104 19150-5
The transcription factor IDEF1 regulates the response to and tolerance of iron deficiency in plants.
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Narayanan NN, Vasconcelos MW, Grusak MA.
Plant Physiol. Biochem. 2007 45(5) 277-86.
Expression profiling of Oryza sativa metal homeostasis genes in different rice cultivars using a cDNA macroarray.
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Kobayashi,T., Suzuki,M., Inoue,H., Itai,R.N., Takahashi,M., Nakanishi,H., Mori,S. and Nishizawa,N.K.
J. Exp. Bot. 2005 56 1305-1316
Expression of iron-acquisition-related genes in iron-deficient rice is co-ordinately induced by partially conserved iron-deficiency-responsive elements
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Nozoye T., Reiko Nakanishi Ita, Nagasaki S., Takahashi M., Nakanishi H., Mori S., Naoko K Nishikawa
Soil Sci Plant Nutr 2004 50(7) 1125-1131
Diurnal Changes in the Expression of Genes That Participate in Phytosiderophore Synthesis in Rice
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Inoue, H., K. Higuchi, M. Takahashi, H. Nakanishi, S. Mori and N.K. Nishizawa
Plant J. 2003 36 (3) 366-381
Three rice nicotianamine synthase genes, OsNAS1, OsNAS2, and OsNAS3 are expressed in cells involved in long-distance transport of iron and differentially regulated by iron.
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Higuchi,K., Watanabe,S., Takahashi,M., Kawasaki,S., Nakanishi,H., Nishizawa,N.K. and Mori,S.
Plant J. 2001 25(2) 159-167
Nicotianamine synthase gene expression differs in barley and rice under Fe-deficient conditions.
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Higuchi K, Suzuki K, Nakanishi H, Yamaguchi H, Nishizawa NK, Mori S.
Plant Physiol. 1999 119(2) 471-480
Cloning of nicotianamine synthase genes, novel genes involved in the biosynthesis of phytosiderophores.
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TextPresso Search
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Search textpresso for NAS2
( Recent references may be retrievable, but without any warranty )
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DB Reference
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Gramene ID
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GR:0080048
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オントロジー
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Gene Ontology
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response to gibberellin stimulus( GO:0009739 )
response to symbiotic bacterium( GO:0009609 )
response to starvation( GO:0042594 )
iron ion transport( GO:0006826 )
nicotianamine synthase activity( GO:0030410 )
nicotianamine biosynthetic process( GO:0030418 )
vesicle-mediated transport( GO:0016192 )
iron ion homeostasis( GO:0055072 )
cellular response to iron ion starvation( GO:0010106 )
response to iron ion( GO:0010039 )
response to copper ion( GO:0046688 )
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Trait Ontology
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iron sensitivity( TO:0000224 )
chlorophyll content( TO:0000495 )
gibberellic acid sensitivity( TO:0000166 )
copper sensitivity( TO:0000021 )
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Plant Ontology
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vascular leaf( PO:0009025 )
seed( PO:0009010 )
shoot system( PO:0009006 )
pericycle( PO:0006203 )
root epidermis( PO:0006036 )
exodermis( PO:0005772 )
root stele( PO:0020124 )
lateral root( PO:0020121 )
root( PO:0009005 )
root cortex( PO:0000258 )
protoxylem( PO:0000272 )
vascular bundle( PO:0005020 )
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関連系統
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形質画像
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更新日
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2023-06-01 14:23:28.963
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