|
Basic Information
|
|
CGSNL Gene Symbol
|
RBOHB
|
|
Gene Symbol Synonym
|
rbohB, OsrbohB, Os rbohB, OsRbohB, OsNox1, Nox1, Os-RbohB, RbohB, OsRboh1, Rboh1
|
|
CGSNL Gene Name
|
RESPIRATORY BURST OXIDASE HOMOLOG B
|
|
Gene Name Synonym
|
Respiratory Burst Oxidase Homolog B, Respiratory Burst Oxidase Homologue B, NADPH oxidase 1
|
|
Protein Name
|
RESPIRATORY BURST OXIDASE HOMOLOG B
|
|
Allele
|
osrbohB, CR-rbohb, CR-rbohb-3, CR-rbohb-4, osrbohb, osrbohb-4, osrbohb-9, osrbohb-KO
|
|
Chromosome No.
|
1
|
|
Explanation
|
Q5ZAJ0, Q6J2K5. AY603975. down-regulated after fertilization (Abiko et al. 2013). OsRboh1 in Xu et al. 2020. GO:2000377: regulation of reactive oxygen species metabolic process. GO:2000379: positive regulation of reactive oxygen species metabolic process. GO:1903409: reactive oxygen species biosynthetic process. GO:0090333: regulation of stomatal closure. GO:0160020: positive regulation of ferroptosis. GO:0160073: Casparian strip assembly.
|
|
Trait Class
|
Character as QTL - Germination
Biochemical character
Vegetative organ - Root
Reproductive organ - Pollination, fertilization, fertility
Tolerance and resistance - Disease resistance
Tolerance and resistance - Stress tolerance
Character as QTL - Yield and productivity
|
|
Expression
|
|
|
Sequence/Locus
|
|
cDNA Accession No.
|
AK065117
|
|
MSU ID
|
LOC_Os01g25820.1
LOC_Os01g25820.2
|
|
RAP ID
|
Os01g0360200
|
|
Links
|
Oryzabase Chromosome View
(
IRGSP 1.0
/
Build5
)
RAP-DB
(
IRGSP 1.0
/
Build5
)
Related IDs List (
IRGSP 1.0
/
Build5
)
|
INSD Accession List
(Test version)
|
Link to INSD Accession List
|
|
Map
|
|
Locate(cM)
|
|
|
Link map
|
Classical linkage map
|
|
References
|
|
Khaskhali S., Xiao X., Zhang Z., Solangi F., Hussain S., Chen Y.
Sci Rep 2025 15(1) 5936
Expression profile and characterization of respiratory burst oxidase homolog genes in rice under MeJA, SA and Xoo treatments.
|
|
Wang J., Nguyen N.K., Liu D., Jwa N.S.
Antioxidants (Basel) 2024 13(8)
Mitogen-Activated Protein Kinase Kinase OsMEK2 Positively Regulates Ca2+ Influx and Ferroptotic Cell Death during Rice Immune Responses.
|
|
Jing X.Q., Shi P.T., Zhang R., Zhou M.R., Shalmani A., Wang G.F., Liu W.T., Li W.Q., Chen K.M.
Plant Physiol. 2024 194(4) 2679-2696
Rice kinase OsMRLK63 contributes to drought tolerance by regulating reactive oxygen species production.
|
|
Wang Q., Shen T., Ni L., Chen C., Jiang J., Cui Z., Wang S., Xu F., Yan R., Jiang M.
Mol Plant 2023 16(5) 882-902
Phosphorylation of OsRbohB by the protein kinase OsDMI3 promotes H2O2 production to potentiate ABA responses in rice.
|
|
Chen Y., Wang J., Nguyen N.K., Hwang B.K., Jwa N.S.
Antioxidants (Basel) 2022 11(9)
The NIN-Like Protein OsNLP2 Negatively Regulates Ferroptotic Cell Death and Immune Responses to <i>Magnaporthe oryzae</i> in Rice.
|
|
Nguyen N.K., Wang J., Liu D., Hwang B.K., Jwa N.S.
Front Plant Sci 2022 13 1019669
Rice iron storage protein Ferritin 2 (OsFER2) positively regulates ferroptotic cell death and defense responses against <i>Magnaporthe oryzae</i>.
|
|
Li G.B., He J.X., Wu J.L., Wang H., Zhang X., Liu J., Hu X.H., Zhu Y., Shen S., Bai Y.F., Yao Z.L., Liu X.X., Zhao J.H., Li D.Q., Li Y., Huang F., Huang Y.Y., Zhao Z.X., Zhang J.W., Zhou S.X., Ji Y.P., Pu M., Qin P., Li S., Chen X., Wang J., He M., Li W., Wu X.J., Xu Z.J., Wang W.M., Fan J.
Mol Plant 2022 15(11) 1790-1806
Overproduction of OsRACK1A, an effector-targeted scaffold protein promoting OsRBOHB-mediated ROS production, confers rice floral resistance to false smut disease without yield penalty.
|
|
Mei Q., Fu Y.W., Li T.M., Xuan Y.H.
Int J Mol Sci 2022 23(9)
<i>Ac/Ds</i>-Induced Receptor-like Kinase Genes Deletion Provides Broad-Spectrum Resistance to Bacterial Blight in Rice.
|
|
Dangol S., Nguyen N.K., Singh R., Chen Y., Wang J., Lee H.G., Hwang B.K., Jwa N.S.
Front Plant Sci 2021 12 710794
Mitogen-activated protein kinase OsMEK2 and OsMPK1 Signaling Is Required for Ferroptotic Cell Death in Rice-<i>Magnaporthe oryzae</i> Interactions.
|
|
Zheng S., Lu J., Yu D., Li J., Zhou H., Jiang D., Liu Z., Zhuang C.
BMC Plant Biol. 2021 21(1) 580
Hexokinase gene OsHXK1 positively regulates leaf senescence in rice.
|
|
Shi Y., Chang Y.L., Wu H.T., Shalmani A., Liu W.T., Li W.Q., Xu J.W., Chen K.M.
Plant Cell Rep. 2020 39(12) 1767-1784
OsRbohB-mediated ROS production plays a crucial role in drought stress tolerance of rice.
|
|
Xu Y., Wang R., Wang Y., Zhang L., Yao S.
Plant Cell Environ. 2020 43(4) 992-1007
A point mutation in ltt1 enhances cold tolerance at the booting stage in rice.
|
|
Ni L., Fu X., Zhang H., Li X., Cai X., Zhang P., Liu L., Wang Q., Sun M., Wang Q.W., Zhang A., Zhang Z., Jiang M.
Plant Cell 2019 31(1) 128-152
Abscisic Acid Inhibits Rice Protein Phosphatase PP45 via H2O2 and Relieves Repression of the Ca2+/CaM-Dependent Protein Kinase DMI3.
|
|
Liu M., Zhang S., Hu J., Sun W., Padilla J., He Y., Li Y., Yin Z., Liu X., Wang W., Shen D., Li D., Zhang H., Zheng X., Cui Z., Wang G.L., Wang P., Zhou B., Zhang Z.
Proc. Natl. Acad. Sci. U.S.A. 2019 116(35) 17572-17577
Phosphorylation-guarded light-harvesting complex II contributes to broad-spectrum blast resistance in rice.
|
|
Zhang H., Tan X., Li L., He Y., Hong G., Li J., Lin L., Cheng Y., Yan F., Chen J., Sun Z.
Mol. Plant Pathol. 2019 20(8) 1093-1104
Suppression of auxin signalling promotes rice susceptibility to Rice black streaked dwarf virus infection.
|
|
Fan J., Bai P., Ning Y., Wang J., Shi X., Xiong Y., Zhang K., He F., Zhang C., Wang R., Meng X., Zhou J., Wang M., Shirsekar G., Park C.H., Bellizzi M., Liu W., Jeon J.S., Xia Y., Shan L., Wang G.L.
Cell Host Microbe 2018 23(4) 498-510.e5
The Monocot-Specific Receptor-like Kinase SDS2 Controls Cell Death and Immunity in Rice.
|
|
Li Z., Wang F., Zhao Q., Liu J., Cheng F.
PLoS ONE 2018 13(1) e0190161
Involvement of NADPH oxidase isoforms in the production of O2- manipulated by ABA in the senescing leaves of early-senescence-leaf (esl) mutant rice (Oryza sativa).
|
|
Huang L., Zhang M., Jia J., Zhao X., Huang X., Ji E., Ni L., Jiang M.
Plant Cell Physiol. 2018 59(5) 916-929
An Atypical Late Embryogenesis Abundant Protein OsLEA5 Plays a Positive Role in ABA-Induced Antioxidant Defense in Oryza sativa L.
|
|
Wu Y.S., Yang C.Y.
Rice (N Y) 2016 9(1) 2
Physiological Responses and Expression Profile of NADPH Oxidase in Rice (Oryza Sativa) Seedlings under Different Levels of Submergence.
|
|
Yang C., Li W., Cao J., Meng F., Yu Y., Huang J., Jiang L., Liu M., Zhang Z., Chen X., Miyamoto K., Yamane H., Zhang J., Chen S., Liu J.
Plant J. 2016
Activation of ethylene signaling pathways enhances disease resistance by regulating ROS and phytoalexin production in rice.
|
|
Akamatsu A., Shimamoto K., Kawano Y.
Curr. Genomics 2016 17(4) 297-307
Crosstalk of Signaling Mechanisms Involved in Host Defense and Symbiosis Against Microorganisms in Rice.
|
|
Huang W.K., Ji H.L., Gheysen G., Kyndt T.
Mol. Plant Pathol. 2016 17(4) 614-24
Thiamine-induced priming against root-knot nematode infection in rice involves lignification and hydrogen peroxide generation.
|
|
Nagano M., Ishikawa T., Fujiwara M., Fukao Y., Kawano Y., Kawai-Yamada M., Shimamoto K.
Plant Cell 2016 28(8) 1966-83
Plasma Membrane Microdomains Are Essential for Rac1-RbohB/H-Mediated Immunity in Rice.
|
|
Zhang H., Liu Y., Wen F., Yao D., Wang L., Guo J., Ni L., Zhang A., Tan M., Jiang M.
J. Exp. Bot. 2014 65(20) 5795-809
A novel rice C2H2-type zinc finger protein, ZFP36, is a key player involved in abscisic acid-induced antioxidant defence and oxidative stress tolerance in rice.
|
|
Kosami K., Ohki I., Nagano M., Furuita K., Sugiki T., Kawano Y., Kawasaki T., Fujiwara T., Nakagawa A., Shimamoto K., Kojima C.
J. Biol. Chem. 2014 289(41) 28569-78
The Crystal Structure of the plant small GTPase OsRac1 Reveals Its Mode of Binding to NADPH Oxidase.
|
|
Wen F., Qin T., Wang Y., Dong W., Zhang A., Tan M., Jiang M.
J Integr Plant Biol 2014
OsHK3 is a crucial regulator of abscisic acid signaling involved in antioxidant defense in rice.
|
|
Abiko M., Maeda H., Tamura K., Hara-Nishimura I., Okamoto T.
J. Exp. Bot. 2013 64(7) 1927-40
Gene expression profiles in rice gametes and zygotes: identification of gamete-enriched genes and up- or down-regulated genes in zygotes after fertilization.
|
|
Kano A., Fukumoto T., Ohtani K., Yoshihara A., Ohara T., Tajima S., Izumori K., Tanaka K., Ohkouchi T., Ishida Y., Nishizawa Y., Ichimura K., Tada Y., Gomi K., Akimitsu K.
J. Exp. Bot. 2013 64(16) 4939-51
The rare sugar D-allose acts as a triggering molecule of rice defence via ROS generation.
|
|
Wang G.F., Li W.Q., Li W.Y., Wu G.L., Zhou C.Y., Chen K.M.
Int J Mol Sci 2013 14(5) 9440-58
Characterization of Rice NADPH Oxidase Genes and Their Expression under Various Environmental Conditions.
|
|
Takahashi S., Kimura S., Kaya H., Iizuka A., Wong H.L., Shimamoto K., Kuchitsu K.
J. Biochem. 2012 152(1) 37-43
Reactive oxygen species production and activation mechanism of the rice NADPH oxidase OsRbohB.
|
|
Li Y., Chen Y., Wu J., He C.
Shengwu Gongcheng Xuebao/Chinese Journal of Biotechnology 2011 27 1574-1585
Expression and functional analysis of OsRboh gene family in rice immune response
|
|
Nakashima A,Chen L,Thao NP,Fujiwara M,Wong HL,Kuwano M,Umemura K,Shirasu K,Kawasaki T,Shimamoto K
Plant Cell 2008 20 2265-79
RACK1 functions in rice innate immunity by interacting with the Rac1 immune complex.
|
|
Wong HL,Pinontoan R,Hayashi K,Tabata R,Yaeno T,Hasegawa K,Kojima C,Yoshioka H,Iba K,Kawasaki T,Shimamoto K
Plant Cell 2007 19 4022-34
Regulation of rice NADPH oxidase by binding of Rac GTPase to its N-terminal extension.
|
|
DB Reference
|
|
Gramene ID
|
-
|
|
Ontologies
|
|
Gene Ontology
|
defense response to bacterium( GO:0042742 )
water homeostasis( GO:0030104 )
response to oxidative stress( GO:0006979 )
root development( GO:0048364 )
plant-type hypersensitive response( GO:0009626 )
respiratory burst during defense response( GO:0002679 )
response to salicylic acid stimulus( GO:0009751 )
response to jasmonic acid stimulus( GO:0009753 )
abscisic acid metabolic process( GO:0009687 )
regulation of abscisic acid biosynthetic process( GO:0010115 )
stomatal movement( GO:0010118 )
response to osmotic stress( GO:0006970 )
response to salt stress( GO:0009651 )
response to water deprivation( GO:0009414 )
NADPH oxidase complex( GO:0043020 )
integral to membrane( GO:0016021 )
NAD(P)H oxidase activity( GO:0016174 )
protein self-association( GO:0043621 )
peroxidase activity( GO:0004601 )
calcium ion binding( GO:0005509 )
response to heat( GO:0009408 )
response to abscisic acid stimulus( GO:0009737 )
abscisic acid mediated signaling( GO:0009738 )
seed germination( GO:0009845 )
defense response( GO:0006952 )
response to molecule of fungal origin( GO:0002238 )
plasma membrane( GO:0005886 )
response to vitamin B1( GO:0010266 )
hydrogen peroxide biosynthetic process( GO:0050665 )
defense response to fungus( GO:0050832 )
fertilization( GO:0009566 )
response to flooding( GO:0009413 )
response to auxin stimulus( GO:0009733 )
auxin mediated signaling pathway( GO:0009734 )
|
|
Trait Ontology
|
abscisic acid sensitivity( TO:0000615 )
disease resistance( TO:0000112 )
fungal disease resistance( TO:0000439 )
blast disease( TO:0000074 )
submergence tolerance( TO:0000524 )
auxin sensitivity( TO:0000163 )
drought tolerance( TO:0000276 )
salt tolerance( TO:0006001 )
osmotic response sensitivity( TO:0000095 )
stomatal closure rate( TO:0000520 )
abscisic acid content( TO:0002667 )
germination rate( TO:0000430 )
1000-seed weight( TO:0000382 )
relative water content( TO:0000136 )
hydrogen peroxide content( TO:0000605 )
proline content( TO:0006002 )
jasmonic acid sensitivity( TO:0000172 )
false smut disease resistance( TO:0000129 )
root development trait( TO:0000656 )
oxidative stress( TO:0002657 )
bacterial blight disease resistance( TO:0000175 )
|
|
Plant Ontology
|
leaf( PO:0025034 )
|
|
Related Strains
|
|
-
|
|
Phenotype images
|
|
-
|
|
Last updated
|
|
Mar 20, 2026
|
Update info.