|
Basic Information
|
|
CGSNL 遺伝子シンボル
|
DSG1
|
|
遺伝子シンボルシノニム
|
OsMAPK6, MAPK6, OsMPK6, OsSIPK, SIPK, OsMAPK1, MAPK1, MPK1, OsMPK1, MPK6, OsDSG1
|
|
CGSNL 遺伝子名
|
DWARF AND SMALL GRAIN 1
|
|
遺伝子名シノニム
|
Mitogen-activated protein kinase 1, MAP kinase 1, MAP kinase 6, dwarf and small grain1
|
|
タンパク質名
|
MITOGEN-ACTIVATED PROTEIN KINASE 6
|
|
対立遺伝子
|
mpk6, osmpk6, osmpk6-1, osmpk6-2, dsg1
|
|
染色体番号
|
6
|
|
解説
|
EC=2.7.11.24 AB183398. AJ535841. Q84UI5. Gene Expression Omnibus database: GSE18787. A major ABA-activated MAPK. OsMPK1 in Yoo et al. 2014, Nanda et al. 2018, Ni et al. 2019, Viana et al. 2021. OsMPK6 in Jalmi and Sinha 2016, Hu et al. 2018, Zhang et al. 2019, Hong et al. 2022, Nguyen et al. 2022, Sinha et al. 2015, Yang et al. 2021, Wang et al. 2023, Guo et al. 2023, Wang et al. 2023, Yang et al. 2023. GO:0080148: negative regulation of response to water deprivation. TO:0000847: panicle inflorescence morphology trait. TO:0000919: grain weight. GO:0097707: ferroptosis. TO:0020089: iron content trait. GO:1901000: regulation of response to salt stress.
|
|
形質クラス
|
生化学的性質
栄養器官 - 根
耐性、抵抗性 - 害虫抵抗性
耐性、抵抗性 - 病気抵抗性
耐性、抵抗性 - ストレス耐性
種子 - 形態学的な特色 - 粒形
QTLの特性 - 収穫と生産性
生殖器官 - 穂、枝梗
生殖器官 - 小穂、花、頴、芒
栄養器官 - 葉
|
|
発現
|
|
|
Sequence/Locus
|
|
cDNA Accession No.
|
AK111691
AK111942
|
|
MSU ID
|
LOC_Os06g06090.1
LOC_Os06g06090.2
|
|
RAP ID
|
Os06g0154500
|
|
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
|
|
マップ
|
|
位置情報(cM)
|
|
|
リンケージマップ
|
Classical linkage map
|
|
文献
|
|
Yang Y., Zhang Y., Zhang L., Zhou Z., Zhang J., Yang J., Gao X., Chen R., Huang Z., Xu Z., Li L.
Int J Mol Sci 2023 24(10)
Isolation of <i>Bacillus siamensis</i> B-612, a Strain That Is Resistant to Rice blast disease and an Investigation of the Mechanisms Responsible for Suppressing Rice Blast Fungus.
|
|
Wang L., Xu G., Li L., Ruan M., Bennion A., Wang G.L., Li R., Qu S.
Proc. Natl. Acad. Sci. U.S.A. 2023 120(13) e2211102120
The OsBDR1-MPK3 module negatively regulates blast resistance by suppressing the jasmonate signaling and terpenoid biosynthesis pathway.
|
|
Guo T., Lu Z.Q., Xiong Y., Shan J.X., Ye W.W., Dong N.Q., Kan Y., Yang Y.B., Zhao H.Y., Yu H.X., Guo S.Q., Lei J.J., Liao B., Chai J., Lin H.X.
Nat Commun 2023 14(1) 1640
Optimization of rice panicle architecture by specifically suppressing ligand-receptor pairs.
|
|
Wang S., Han S., Zhou X., Zhao C., Guo L., Zhang J., Liu F., Huo Q., Zhao W., Guo Z., Chen X.
Plant Cell 2023 35(6) 2391-2412
Phosphorylation and ubiquitination of OsWRKY31 are integral to OsMKK10-2-mediated defense responses in rice.
|
|
Yu J., Zhu C., Xuan W., An H., Tian Y., Wang B., Chi W., Chen G., Ge Y., Li J., Dai Z., Liu Y., Sun Z., Xu D., Wang C., Wan J.
Nat Commun 2023 14(1) 3550
Genome-wide association studies identify OsWRKY53 as a key regulator of salt tolerance in rice.
|
|
Bu Z., Li W., Liu X., Liu Y., Gao Y., Pei G., Zhuo R., Cui K., Qin Z., Zheng H., Wu J., Yang Y., Su P., Cao M., Xiong X., Liu X., Zhu Y.
Microbiol Spectr 2023 11(3) e0482422
The Rice Endophyte-Derived α-Mannosidase ShAM1 Degrades Host Cell Walls To Activate DAMP-Triggered Immunity against Disease.
|
|
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>.
|
|
Hong Y., Wang H., Gao Y., Bi Y., Xiong X., Yan Y., Wang J., Li D., Song F.
Int J Mol Sci 2022 23(2)
ERF Transcription Factor OsBIERF3 Positively Contributes to Immunity against Fungal and Bacterial Diseases but Negatively Regulates cold tolerance in Rice.
|
|
Chen J., Wang L., Yuan M.
Int J Mol Sci 2021 22(4)
Update on the Roles of Rice MAPK Cascades.
|
|
Yang J., Ji L., Liu S., Jing P., Hu J., Jin D., Wang L., Xie G.
J. Exp. Bot. 2021
The CaM1-Associated CCaMK-MKK1/6 cascade positively affects the lateral root growth through auxin signaling under salt stress 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.
|
|
Chen M., Ni L., Chen J., Sun M., Qin C., Zhang G., Zhang A., Jiang M.
Plant Cell 2021
Rice calcium/calmodulin-dependent protein kinase directly phosphorylates a mitogen-activated protein kinase kinase to regulate abscisic acid responses.
|
|
Viana V.E., Carlos da Maia L., Busanello C., Pegoraro C., Costa de Oliveira A.
Plant Biol (Stuttg) 2021 23 Suppl 1 100-112
When rice gets the chills: comparative transcriptome profiling at germination shows WRKY transcription factor responses.
|
|
Tian X., He M., Mei E., Zhang B., Tang J., Xu M., Liu J., Li X., Wang Z., Tang W., Guan Q., Bu Q.
Plant Cell 2021
WRKY53 Integrates Classic Brassinosteroid Signaling and the Mitogen-Activated Protein Kinase Pathway to Regulate Rice Architecture and seed size.
|
|
Guo T., Lu Z.Q., Shan J.X., Ye W.W., Dong N.Q., Lin H.X.
Plant Cell 2020 32(9) 2763-2779
<i>ERECTA1</i> Acts Upstream of the OsMKKK10-OsMKK4-OsMPK6 Cascade to Control spikelet number by Regulating Cytokinin Metabolism in Rice.
|
|
Qi D., Wen Q., Meng Z., Yuan S., Guo H., Zhao H., Cui S.
Plant J. 2020 104(4) 901-916
OsLFR is essential for early endosperm and embryo development by interacting with SWI/SNF complex members in Oryza sativa.
|
|
Zhang Y., Xiong Y., Liu R., Xue H.W., Yang Z.
Proc. Natl. Acad. Sci. U.S.A. 2019 116(32) 16121-16126
The Rho-family GTPase <i>OsRac1</i> controls rice grain size and yield by regulating cell division.
|
|
Dong Z., Li W., Liu J., Li L., Pan S., Liu S., Gao J., Liu L., Liu X., Wang G.L., Dai L.
Sci Rep 2019 9(1) 5408
The Rice Phosphate Transporter Protein OsPT8 Regulates disease resistance and Plant Growth.
|
|
Uji Y., Kashihara K., Kiyama H., Mochizuki S., Akimitsu K., Gomi K.
Int J Mol Sci 2019 20(12)
Jasmonic Acid-Induced VQ-Motif-Containing Protein OsVQ13 Influences the OsWRKY45 Signaling Pathway and grain size by Associating with OsMPK6 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.
|
|
Hong Y., Liu Q., Cao Y., Zhang Y., Chen D., Lou X., Cheng S., Cao L.
Front Plant Sci 2019 10 752
The <i>OsMPK15</i> Negatively Regulates <i>Magnaporthe oryza</i> and <i>Xoo</i> disease resistance via SA and JA Signaling Pathway in Rice.
|
|
Ye M., Glauser G., Lou Y., Erb M., Hu L.
Plant Cell 2019 31(3) 687-698
Molecular Dissection of Early Defense Signaling Underlying Volatile-Mediated Defense Regulation and Herbivore Resistance in Rice.
|
|
Xu R., Duan P., Yu H., Zhou Z., Zhang B., Wang R., Li J., Zhang G., Zhuang S., Lyu J., Li N., Chai T., Tian Z., Yao S., Li Y.
Mol Plant 2018 11(6) 860-873
Control of grain size.and Weight by the OsMKKK10-OsMKK4-OsMAPK6 Signaling Pathway in Rice.
|
|
Hu L., Ye M., Kuai P., Ye M., Erb M., Lou Y.
New Phytol. 2018 219(3) 1097-1111
OsLRR-RLK1, an early responsive leucine-rich repeat receptor-like kinase, initiates rice defense responses against a chewing herbivore.
|
|
Xu R., Yu H., Wang J., Duan P., Zhang B., Li J., Li Y., Xu J., Lyu J., Li N., Chai T., Li Y.
Plant J. 2018 95(6) 937-946
A mitogen-activated protein kinase phosphatase influences grain size and weight in rice.
|
|
Wang T., Zou T., He Z., Yuan G., Luo T., Zhu J., Liang Y., Deng Q., Wang S., Zheng A., Liu H., Wang L., Li P., Li S.
J Integr Plant Biol 2018
GRAIN LENGTH AND AWN 1 negatively regulates grain size in rice.
|
|
Nanda S., Wan P.J., Yuan S.Y., Lai F.X., Wang W.X., Fu Q.
Int J Mol Sci 2018 19(12)
Differential Responses of <i>OsMPK</i>s in IR56 Rice to Two BPH Populations of Different Virulence Levels.
|
|
Takatsuji H.
Front Plant Sci 2017 8 171
Regulating Tradeoffs to Improve Rice Production.
|
|
Karmakar S., Molla K.A., Das K., Sarkar S.N., Datta S.K., Datta K.
Sci Rep 2017 7(1) 7900
Dual gene expression cassette is superior than single gene cassette for enhancing sheath blight tolerance in transgenic rice.
|
|
Huang X., Peng X., Sun M.X.
New Phytol. 2017 215(3) 1039-1058
OsGCD1 is essential for rice fertility and required for embryo dorsal-ventral pattern formation and endosperm development.
|
|
Tian X., Li X., Zhou W., Ren Y., Wang Z., Liu Z., Tang J., Tong H., Fang J., Bu Q.
Plant Physiol. 2017 175(3) 1337-1349
Transcription Factor OsWRKY53 Positively Regulates Brassinosteroid Signaling and Plant Architecture.
|
|
Yamada K., Yamaguchi K., Yoshimura S., Terauchi A., Kawasaki T.
Plant Cell Physiol. 2017
Conservation of chitin-induced MAPK signaling pathways in rice and Arabidopsis.
|
|
Ma H., Chen J., Zhang Z., Ma L., Yang Z., Zhang Q., Li X., Xiao J., Wang S.
Plant J. 2017
MAPK kinase 10.2 Promotes Disease Resistance and drought tolerance by Activating Different MAPKs in rice.
|
|
Yi J., Lee Y.S., Lee D.Y., Cho M.H., Jeon J.S., An G.
J. Exp. Bot. 2016 67(8) 2425-37
OsMPK6 plays a critical role in cell differentiation during early embryogenesis in Oryza sativa.
|
|
Jalmi S.K., Sinha A.K.
Sci Rep 2016 6 37974
Functional Involvement of a Mitogen Activated Protein Kinase Module, OsMKK3-OsMPK7-OsWRK30 in Mediating Resistance against Xanthomonas oryzae in Rice.
|
|
Mohanta T.K., Mohanta N., Parida P., Bae H.
Biol Proced Online 2015 17 13
Mitogen Activated Protein Kinase (MPK) Interacts With Auxin Influx Carrier (OsAux/LAX1) Involved in Auxin Signaling in Plant.
|
|
Singh P., Mohanta T.K., Sinha A.K.
PLoS ONE 2015 10(4) e0123620
Unraveling the Intricate Nexus of Molecular Mechanisms Governing Rice Root Development: OsMPK3/6 and Auxin-Cytokinin Interplay.
|
|
Liu S., Hua L., Dong S., Chen H., Zhu X., Jiang J., Zhang F., Li Y., Fang X., Chen F.
Plant J. 2015
OsMAPK6, a mitogen-activated protein kinase, influences rice grain size and biomass production.
|
|
Ueno Y., Yoshida R., Kishi-Kaboshi M., Matsushita A., Jiang C.J., Goto S., Takahashi A., Hirochika H., Takatsuji H.
PLoS Pathog. 2015 11(10) e1005231
Abiotic Stresses Antagonize the Rice Defence Pathway through the Tyrosine-Dephosphorylation of OsMPK6.
|
|
Yoo S.J., Kim S.H., Kim M.J., Ryu C.M., Kim Y.C., Cho B.H., Yang K.Y.
Plant Pathol. J. 2014 30(2) 168-77
Involvement of the OsMKK4-OsMPK1 Cascade and its Downstream Transcription Factor OsWRKY53 in the Wounding Response in Rice.
|
|
Li C.H., Wang G., Zhao J.L., Zhang L.Q., Ai L.F., Han Y.F., Sun D.Y., Zhang S.W., Sun Y.
Plant Cell 2014 26(6) 2538-2553
The Receptor-Like Kinase SIT1 Mediates salt sensitivity by Activating MAPK3/6 and Regulating Ethylene Homeostasis in Rice.
|
|
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.
|
|
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.
|
|
Yamaguchi K., Yamada K., Ishikawa K., Yoshimura S., Hayashi N., Uchihashi K., Ishihama N., Kishi-Kaboshi M., Takahashi A., Tsuge S., Ochiai H., Tada Y., Shimamoto K., Yoshioka H., Kawasaki T.
Cell Host Microbe 2013 13(3) 347-57
A receptor-like cytoplasmic kinase targeted by a plant pathogen effector is directly phosphorylated by the chitin receptor and mediates rice immunity.
|
|
Shi B., Ni L., Liu Y., Zhang A., Tan M., Jiang M.
Plant Cell Environ. 2013
OsDMI3-mediated activation of OsMPK1 regulates the activities of antioxidant enzymes in abscisic acid signalling in rice.
|
|
Ye M., Song Y., Long J., Wang R., Baerson S.R., Pan Z., Zhu-Salzman K., Xie J., Cai K., Luo S., Zeng R.
Proc. Natl. Acad. Sci. U.S.A. 2013 110(38) E3631-9
Priming of jasmonate-mediated antiherbivore defense responses in rice by silicon.
|
|
Kim S.H., Oikawa T., Kyozuka J., Wong H.L., Umemura K., Kishi-Kaboshi M., Takahashi A., Kawano Y., Kawasaki T., Shimamoto K.
Plant Cell Physiol. 2012 53(4) 740-54
The bHLH Rac Immunity1 (RAI1) Is Activated by OsRac1 via OsMAPK3 and OsMAPK6 in Rice Immunity.
|
|
Ding B., Bellizzi Mdel R., Ning Y., Meyers B.C., Wang G.L.
Plant Cell 2012 24(9) 3783-94
HDT701, a histone H4 deacetylase, negatively regulates plant innate immunity by modulating histone H4 acetylation of defense-related genes in rice.
|
|
Wamaitha M.J., Yamamoto R., Wong H.L., Kawasaki T., Kawano Y., Shimamoto K.
Rice (N Y) 2012 5 35
OsRap2.6 transcription factor contributes to rice innate immunity through its interaction with receptor for activated Kinase-C 1 (RACK1)
|
|
Xie G., Kato H., Imai R.
Biochem. J. 2012 443(1) 95-102
Biochemical identification of the OsMKK6-OsMPK3 signalling pathway for chilling stress tolerance in rice1.
|
|
Qi J., Zhou G., Yang L., Erb M., Lu Y., Sun X., Cheng J., Lou Y.
Plant Physiol. 2011 157(4) 1987-99
The Chloroplast-Localized Phospholipases D alpha4 and alpha5 Regulate Herbivore-Induced Direct and Indirect Defenses in Rice.
|
|
Kishi-Kaboshi M., Okada K., Kurimoto L., Murakami S., Umezawa T., Shibuya N., Yamane H., Miyao A., Takatsuji H., Takahashi A., Hirochika H.
Plant Journal 2010 63(4) 599-612
A rice fungal MAMP-responsive MAPK cascade regulates metabolic flow to antimicrobial metabolite synthesis.
|
|
Lieberherr,D., Thao,N.P., Nakashima,A., Umemura,K., Kawasaki,T. and Shimamoto,K.
Plant Physiol. 2005 138(3) 1644-1652
A Sphingolipid Elicitor-Inducible Mitogen-Activated Protein Kinase Is Regulated by the Small GTPase OsRac1 and Heterotrimeric G-Protein in Rice.
|
|
TextPresso Search
|
Search textpresso for DSG1
( Recent references may be retrievable, but without any warranty )
|
|
DB Reference
|
|
Gramene ID
|
-
|
|
オントロジー
|
|
Gene Ontology
|
response to cold( GO:0009409 )
regulation of stomatal complex patterning( GO:2000037 )
camalexin biosynthetic process( GO:0010120 )
trans-Golgi network( GO:0005802 )
response to oxidative stress( GO:0006979 )
induced systemic resistance, jasmonic acid mediated signaling pathway( GO:0009864 )
protein amino acid phosphorylation( GO:0006468 )
MAPKKK cascade( GO:0000165 )
regulation of stomatal complex development( GO:2000038 )
inflorescence development( GO:0010229 )
response to herbivore( GO:0080027 )
defense response to insect( GO:0002213 )
nucleus( GO:0005634 )
cytoplasm( GO:0005737 )
brassinosteroid mediated signaling( GO:0009742 )
brassinosteroid homeostasis( GO:0010268 )
regulation of cell proliferation( GO:0042127 )
embryonic development( GO:0009790 )
positive regulation of programmed cell death( GO:0043068 )
regulation of cell differentiation( GO:0045595 )
priming of cellular response to stress( GO:0080136 )
abscisic acid mediated signaling( GO:0009738 )
response to wounding( GO:0009611 )
MAP kinase activity( GO:0004707 )
response to salt stress( GO:0009651 )
defense response( GO:0006952 )
response to ethylene stimulus( GO:0009723 )
response to hydrogen peroxide( GO:0042542 )
ovule development( GO:0048481 )
response to abscisic acid stimulus( GO:0009737 )
preprophase band( GO:0009574 )
root development( GO:0048364 )
response to cytokinin stimulus( GO:0009735 )
response to salicylic acid stimulus( GO:0009751 )
auxin mediated signaling pathway( GO:0009734 )
defense response to fungus( GO:0050832 )
response to auxin stimulus( GO:0009733 )
defense response to bacterium( GO:0042742 )
salicylic acid mediated signaling pathway( GO:0009863 )
response to chitin( GO:0010200 )
cell division( GO:0051301 )
defense response, incompatible interaction( GO:0009814 )
response to jasmonic acid stimulus( GO:0009753 )
jasmonic acid mediated signaling pathway( GO:0009867 )
phragmoplast( GO:0009524 )
ATP binding( GO:0005524 )
response to brassinosteroid stimulus( GO:0009741 )
response to molecule of fungal origin( GO:0002238 )
response to water deprivation( GO:0009414 )
cytokinin metabolic process( GO:0009690 )
unidimensional cell growth( GO:0009826 )
response to molecule of bacterial origin( GO:0002237 )
pattern recognition receptor signaling pathway( GO:0002221 )
|
|
Trait Ontology
|
bacterial leaf streak disease resistance( TO:0000203 )
panicle size( TO:0006032 )
cold tolerance( TO:0000303 )
leaf angle( TO:0000206 )
seed size( TO:0000391 )
oxidative stress( TO:0002657 )
abscisic acid sensitivity( TO:0000615 )
fungal disease resistance( TO:0000439 )
salt tolerance( TO:0006001 )
diterpenoid phytoalexin content( TO:0002669 )
blast disease( TO:0000074 )
cytokinin sensitivity( TO:0000167 )
armyworm resistance( TO:0000273 )
filled grain number( TO:0000447 )
jasmonic acid sensitivity( TO:0000172 )
total biomass yield( TO:0000457 )
abscisic acid content( TO:0002667 )
cytokinin content( TO:0002660 )
drought tolerance( TO:0000276 )
grain number( TO:0002759 )
spikelet number( TO:0000456 )
grain weight( TO:0000590 )
grain size( TO:0000397 )
stem borer resistance( TO:0000454 )
brassinosteroid content( TO:0002676 )
brassinosteroid sensitivity( TO:0002677 )
jasmonic acid content( TO:0002668 )
inflorescence development trait( TO:0000621 )
auxin sensitivity( TO:0000163 )
root development trait( TO:0000656 )
bacterial blight disease resistance( TO:0000175 )
|
|
Plant Ontology
|
inflorescence development stage( PO:0001083 )
spikelet( PO:0009051 )
root development stage( PO:0007520 )
|
|
関連系統
|
|
-
|
|
形質画像
|
|
-
|
|
更新日
|
|
2023-10-06 10:45:07.455
|
更新情報
フィードバックはこちら