Gene - Detail

Detail of Gene

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Basic Information
CGSNL Gene Symbol TIFY11C
Gene Symbol Synonym OsJAZ2, JAZ2, OsJAZ 11, OsJAZ11, Os-JAZ11, JAZ11, OsTIFY11c, OsJAZ1, JAZ1
CGSNL Gene Name TIFY GENE 11C
Gene Name Synonym Jasmonate ZIM-domain protein 2, Jasmonate ZIM-domain protein 11
Protein Name TIFY-DOMAIN PROTEIN 11C
Allele osjaz1
Chromosome No. 3
Explanation Q8GRS2. OsJAZ 11 in Ye et al.(2009), Yamada et al. 2012, Toda et al. 2013, Wang et al. 2019, Kashihara et al. 2019, Gao et al. 2022, Tan et al. 2022, Mehra et al. 2022, Sun et al. 2022, Wang et al. 2021, Ma et al. 2022, Ma et al. 2023, Zhang et al. 2023. OsJAZ2 in Seo et al.(2011) Shimizu et al. 2013 and in Lee et al. (2013). OsJAZ1 in Aung et al. 2018. GO:2000022: regulation of jasmonic acid mediated signaling pathway. PO:0030123: panicle inflorescence. TO:1000022: anther morphology trait. TO:1000024: palea morphology trait.
Trait Class Tolerance and resistance - Stress tolerance
Vegetative organ - Leaf
Vegetative organ - Culm
Seed - Morphological traits
Character as QTL - Yield and productivity
Reproductive organ - Heading date
Reproductive organ - panicle
Reproductive organ - Spikelet, flower, glume, awn
Tolerance and resistance - Disease resistance
Vegetative organ - Root
Tolerance and resistance - Insect resistance
Expression
Sequence/Locus
cDNA Accession No. AK073589
MSU ID LOC_Os03g08320.1
RAP ID Os03g0180900
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)
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Map
Locate(cM)
Link map Classical linkage map
References
Zhang H., Wang F., Song W., Yang Z., Li L., Ma Q., Tan X., Wei Z., Li Y., Li J., Yan F., Chen J., Sun Z.
Nat Commun 2023  14(1)  3011
Different viral effectors suppress hormone-mediated antiviral immunity of rice coordinated by OsNPR1.
Ma Q., Wang F., Song W., Huang C., Xie K., Wei Z., Li Y., Chen J., Zhang H., Sun Z.
Front Microbiol 2023  14  1131212
Transcriptome analysis of auxin transcription factor OsARF17-mediated rice stripe mosaic virus response in rice.
Li J., Chen L., Ding X., Fan W., Liu J.
Int J Mol Sci 2022  23(11) 
Transcriptome Analysis Reveals Crosstalk between the Abscisic Acid and Jasmonic Acid Signaling Pathways in Rice-Mediated Defense against <i>Nilaparvata lugens</i>.
Tan X., Zhang H., Yang Z., Wei Z., Li Y., Chen J., Sun Z.
PLoS Pathog. 2022  18(5)  e1010548
NF-YA transcription factors suppress jasmonic acid-mediated antiviral defense and facilitate viral infection in rice.
Ma J., Morel J.B., Riemann M., Nick P.
BMC Plant Biol. 2022  22(1)  601
Jasmonic acid contributes to rice resistance against Magnaporthe oryzae.
Mehra P., Pandey B.K., Verma L., Prusty A., Singh A.P., Sharma S., Malik N., Bennett M.J., Parida S.K., Giri J., Tyagi A.K.
Plant Direct 2022  6(5)  e401
<i>OsJAZ11</i> regulates spikelet and seed development in rice.
Sun B., Shang L., Li Y., Zhang Q., Chu Z., He S., Yang W., Ding X.
Int J Mol Sci 2022  23(9) 
Ectopic Expression of OsJAZs Alters Plant Defense and Development.
Gao Y., Xiang X., Zhang Y., Cao Y., Wang B., Zhang Y., Wang C., Jiang M., Duan W., Chen D., Zhan X., Cheng S., Liu Q., Cao L.
Int J Mol Sci 2022  23(2) 
Disruption of <i>OsPHD1</i>, Encoding a UDP-glucose epimerase, Causes JA Accumulation and Enhanced Bacterial Blight Resistance in Rice.
Li L., Zhang H., Chen C., Huang H., Tan X., Wei Z., Li J., Yan F., Zhang C., Chen J., Sun Z.
Proc. Natl. Acad. Sci. U.S.A. 2021  118(11) 
A class of independently evolved transcriptional repressors in plant RNA viruses facilitates viral infection and vector feeding.
Wang L., Cao S., Wang P., Lu K., Song Q., Zhao F.J., Chen Z.J.
Proc. Natl. Acad. Sci. U.S.A. 2021  118(13) 
DNA hypomethylation in tetraploid rice potentiates stress-responsive gene expression for salt tolerance.
Pandey B.K., Verma L., Prusty A., Singh A.P., Bennett M.J., Tyagi A.K., Giri J., Mehra P.
Planta 2021  254(1)  8
OsJAZ11 regulates phosphate starvation responses in rice.
Hughes P.W.
Plant Cell 2020  32(9)  2669-2670
OsGSK2 Integrates Jasmonic Acid and Brassinosteroid Signaling in Rice.
He Y., Hong G., Zhang H., Tan X., Li L., Kong Y., Sang T., Xie K., Wei J., Li J., Yan F., Wang P., Tong H., Chu C., Chen J., Sun Z.
Plant Cell 2020  32(9)  2806-2822
The OsGSK2 Kinase Integrates Brassinosteroid and Jasmonic Acid Signaling by Interacting with OsJAZ4.
Wang J., Zhang Q., Wang Y., Huang J., Luo N., Wei S., Jin J.
Rice (N Y) 2019  12(1)  6
Analysing the rice young panicle transcriptome reveals the gene regulatory network controlled by TRIANGULAR HULL1.
Kashihara K., Onohata T., Okamoto Y., Uji Y., Mochizuki S., Akimitsu K., Gomi K.
J. Plant Physiol. 2019  232  180-187
Overexpression of OsNINJA1 negatively affects a part of OsMYC2-mediated abiotic and biotic responses in rice.
Aung M.S., Kobayashi T., Masuda H., Nishizawa N.K.
Physiol Plant 2018   
Rice HRZ ubiquitin ligases are crucial for response to excess iron.
Ma J., Chen J., Wang M., Ren Y., Wang S., Lei C., Cheng Z., Sodmergen
J. Exp. Bot. 2018  69(5)  1051-1064
Disruption of OsSEC3A increases the content of salicylic acid and induces plant defense responses in rice.
Hakata M., Muramatsu M., Nakamura H., Hara N., Kishimoto M., Iida-Okada K., Kajikawa M., Imai-Toki N., Toki S., Nagamura Y., Yamakawa H., Ichikawa H.
Biosci. Biotechnol. Biochem. 2017  81(5)  906-913
Overexpression of TIFY genes promotes plant growth in rice through jasmonate signaling.
Lee H.Y., Seo J.S., Cho J.H., Jung H., Kim J.K., Lee J.S., Rhee S., Do Choi Y.
PLoS ONE 2013  8(1)  e52802
Oryza sativa COI homologues restore jasmonate signal transduction in Arabidopsis COI1-1 mutants.
Shimizu T., Miyamoto K., Miyamoto K., Minami E., Nishizawa Y., Iino M., Nojiri H., Yamane H., Okada K.
Biosci. Biotechnol. Biochem. 2013  77(7)  1556-64
OsJAR1 Contributes Mainly to Biosynthesis of the Stress-Induced Jasmonoyl-Isoleucine Involved in Defense Responses in Rice.
Toda,Y., Tanaka,M., Ogawa,D., Kurata,K., Kurotani,K., Habu,Y., Ando,T., Sugimoto,K., Mitsuda,N., Katoh,E., Abe,K., Miyao,A., Hirochika,H., Hattori,T. and Takeda,S.
Plant Cell 2013  25(5)  1709-1725
RICE SALT SENSITIVE3 Forms a Ternary Complex with JAZ and Class-C bHLH Factors and Regulates Jasmonate-Induced Gene Expression and Root Cell Elongation
Yamada S., Kano A., Tamaoki D., Miyamoto A., Shishido H., Miyoshi S., Taniguchi S., Akimitsu K., Gomi K.
Plant Cell Physiol. 2012  53(12)  2060-72
Involvement of OsJAZ8 in jasmonate-induced resistance to bacterial blight in rice.
Seo J.S. , Joo J. , Kim M.J. , Kim Y.K. , Nahm B.H. , Song S.I. , Cheong J.J. , Lee J.S. , Kim J.K. , Choi Y.D.
Plant J. 2011  65(6)  907-21
OsbHLH148, a basic helix-loop-helix protein, interacts with OsJAZ proteins in a jasmonate signaling pathway leading to drought tolerance in rice.
Ye H,Du H,Tang N,Li X,Xiong L
Plant Mol. Biol. 2009  71(3)  291-305
Identification and expression profiling analysis of TIFY family genes involved in stress and phytohormone responses in rice.
TextPresso Search Search textpresso for TIFY11C ( Recent references may be retrievable, but without any warranty )
DB Reference
Gramene ID -
Ontologies
Gene Ontology defense response to fungus( GO:0050832 )
response to salt stress( GO:0009651 )
defense response to bacterium( GO:0042742 )
photoperiodism, flowering( GO:0048573 )
specification of floral organ identity( GO:0010093 )
inflorescence development( GO:0010229 )
regulation of seed development( GO:0080050 )
cellular response to phosphate starvation( GO:0016036 )
defense response to insect( GO:0002213 )
response to abscisic acid stimulus( GO:0009737 )
inflorescence morphogenesis( GO:0048281 )
response to starvation( GO:0042594 )
primary root development( GO:0080022 )
root development( GO:0048364 )
regulation of jasmonic acid biosynthetic process( GO:0080141 )
regulation of phosphate transport( GO:0010966 )
phosphate ion homeostasis( GO:0055062 )
defense response to virus( GO:0051607 )
jasmonic acid mediated signaling pathway( GO:0009867 )
response to wounding( GO:0009611 )
response to jasmonic acid stimulus( GO:0009753 )
regulation of defense response( GO:0031347 )
nucleus( GO:0005634 )
Trait Ontology jasmonic acid sensitivity( TO:0000172 )
grain weight( TO:0000590 )
grain size( TO:0000397 )
stem length( TO:0000576 )
spikelet fertility( TO:0000180 )
plant height( TO:0000207 )
flower number( TO:0002736 )
days to heading( TO:0000137 )
seed development trait( TO:0000653 )
inflorescence development trait( TO:0000621 )
seed width( TO:0000149 )
seed weight( TO:0000181 )
seed size( TO:0000391 )
floral organ number( TO:0006038 )
jasmonic acid content( TO:0002668 )
grain yield( TO:0000396 )
panicle size( TO:0006032 )
filled grain number( TO:0000447 )
grain yield per panicle( TO:0000450 )
grain number( TO:0002759 )
flag leaf length( TO:0002757 )
viral disease resistance( TO:0000148 )
root length( TO:0000227 )
seminal root length( TO:0000586 )
abscisic acid sensitivity( TO:0000615 )
brown planthopper resistance( TO:0000424 )
flowering time( TO:0002616 )
bacterial disease resistance( TO:0000315 )
panicle length( TO:0000040 )
anther shape( TO:0000214 )
carpel anatomy and morphology trait( TO:0006012 )
stamen anatomy and morphology trait( TO:0000215 )
lodicule number( TO:0006010 )
carpel number( TO:0006013 )
glume number( TO:0006029 )
stamen number( TO:0000225 )
spikelet anatomy and morphology trait( TO:0000657 )
grain yield per plant( TO:0000449 )
salt tolerance( TO:0006001 )
blast disease( TO:0000074 )
Plant Ontology seed development stage( PO:0001170 )
inflorescence development stage( PO:0001083 )
inflorescence( PO:0009049 )
seed( PO:0009010 )
anther( PO:0009066 )
lemma( PO:0009037 )
palea( PO:0009038 )
awn( PO:0025349 )
Related Strains
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Phenotype images
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Last updated
Sep 4, 2023


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