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徐云远
徐云远     研究员

1984年,兰州大学获学士学位;

1991年,兰州大学获硕士学位;

1999年,兰州大学获博士学位;

1984-1999年,兰州大学见习助教、助教、讲师、副教授;

1999-2002年,中国科学院植物研究所从事博士后研究;

2002-至今:中国科学院植物研究所副研究员、研究员。

中国科学院植物研究所研究员,博士生导师。曾任中国生化与分子生物学会农业生物化学与分子生物学分会理事、监事,中国植物生理学会植物生长物质专业委员会委员,《植物学报》编委。先后在Cell、Dev Cell、Nat Commun、Plant Physiol、Plant Cell Environ等学术期刊发表论文100余篇,授权专利21项、参与5本教科书的编写。先后主持国家自然科学基金、国家转基因专项以及科学院先导专项等各类研究项目20项。

联系方式:010-62836683 E-mail:xuyy@ibcas.ac.cn
  • 研究方向
研究论文
Li JH, Zhang ZY, Chong K, Xu YY*. 2022. Chilling tolerance in rice: Past and present. Journal Plant Physiology,  doi:10.1016/j.jplph.2021.153576

Luo W, Huan Q, Xu YY, Qian WF, Chong K*, Zhang JY*. 2021. Integrated global analysis reveals a vitamin Evitamin K1 sub-network, downstream of COLD1 underlying rice chilling tolerance divergence. Cell Reports, 36(3):109397

Yang WS, Wu K, Wang B, Liu HH, Guo SY, Guo XY, Luo W, Sun SY, Ouyang YD, Fu XD, Chong K, Zhang QF*, Xu YY*. 2021. The RING E3 ligase CLG1 targets GS3 for degradation via the endosome pathway to determine grain size in rice. Molecular Plant, 14:1699-1713

Xu SJ, Dong Q, Deng M, Lin DX, Xiao J, Cheng PL, Xing LJ, Niu YD, Gao CX, Zhang WH, Xu YY, Chong K*. 2021. The vernalization-induced long non-coding RNA VAS functions with the transcription factor TaRF2b to promote TaVRN1 expression for flowering in hexaploid wheat. Molecular Plant, 14:1525-1538

Li ZT, Wang B, Zhang ZY, Luo W, Tang YY, Niu YD, Chong K, Xu YY*. 2021. OsGRF6 interacts with SLR1 to regulate OsGA2ox1 expression for coordinating chilling tolerance and growth in rice. Journal Plant Physiology, 260:153406

Xia CX, Gong YS, Chong K, Xu YY*. 2021. Phosphatase OsPP2C27 directly dephosphorylates OsMAPK3 and OsbHLH002 to negatively regulate cold tolerance in rice. Plant Cell Environment, 44:491-505

Tang Y, Gao CC, Gao Y, Yang Y, Shi B, Yu JL, Lyu C, Sun BF, Wang HL, Xu YY, Yang YG*, Chong K*. 2020. OsNSUN2-mediated 5-methylcytosine mRNA modification enhances rice adaptation to high temperature. Developmental Cell, 53:272-286

Ge G, Zhang YY, Xu YY, Bai MY, Luo W, Wang B, Niu YD, Zhao Y, Li SS, Weng YX, Wang ZY, Qian Q, Chong K*. 2020. Cyclophilin OsCYP20-2 with a novel variant integrates defense and cell elongation for chilling response in rice. New Phytologist, 225: 2453–2467

Ge Q, Tang YY, Luo W, Zhang JY, Chong K, Xu YY*. 2020. A cyclophilin OsCYP20-2 interacts with OsSYF2 to regulate grain length by pre-mRNA splicing. Rice, 13(1):64

Xu SJ, Xiao J, Yin F, Guo XY, Xing LJ, Xu YY, Chong K*. 2019. The protein modifications of O-GlcNAcylation and phosphorylation mediate vernalization response for flowering in winter wheat. Plant Physiology, 180:1436-1449

Zhang DJ, Guo XY, Xu YY, Li H, Ma L, Yao XF, Weng YX, Guo Y, Liu CM, Chong K*. 2019. OsCIPK7 point-mutation leads to conformation and kinase-activity change for sensing cold response.  Journal of Integrative Plant Biology, 2019, 61: 1194-1200

Xing LJ, Liu Y, Xu SJ, Xiao J, Wang B, Deng HW, Lu Z, Xu YY, Chong K*. 2018. Arabidopsis O-GlcNAc transferase SEC activates histone methyltransferase ATX1 to regulate flowering. EMBO Journal, 37: e98115.

Zhang ZY, Liu HH, Sun C, Ma QB, Bu HY, Chong K, Xu YY*. 2018. A C2H2 zinc-finger protein OsZFP213 interacts with OsMAPK3 to enhance salt tolerance in rice. Journal Plant Physiology, 229:100–110

Chen LP, Zhao Y, Xu SJ, Zhang ZY, Xu YY, Zhang JY, Chong K*. 2018. OsMADS57 together with OsTB1 coordinates transcription of its target OsWRKY94 and D14 to switch its organogenesis to defense for cold adaptation in rice. New Phytologist, 218:219-231

Tang YY, Liu HH, Guo SY, Wang B, Li ZT, Chong K, Xu YY*. 2018. OsmiR396d miRNA affects gibberellin and brassinosteroid signaling to regulate plant architecture. Plant Physiology, 176:946-959

Zhang ZY, Li JH, Li F, Liu HH, Yang WS, Chong K*, Xu YY*. 2017. OsMAPK3 phosphorylates OsbHLH002/OsICE1 and inhibits its ubiquitination to activate OsTPP1 and enhances rice chilling tolerance. Developmental Cell, 43: 731–743

Zhang J, Luo W, Zhao Y, Xu YY, Song S, Chong K*. 2016. Comparative metabolomic analysis reveals a reactive oxygen species-dominated dynamic model underlying chilling environment adaptation and tolerance in rice. New Phytologist, 211(4):1295-310

Xiao J, Li C, Xu S, Xing L, Xu YY, Chong K*. 2015. JACALIN-LECTIN LIKE1 regulates the nuclear accumulation of GLYCINE-RICH RNA-BINDING PROTEIN7, influencing the RNA processing of FLOWERING LOCUS C antisense transcripts and flowering time in Arabidopsis. Plant Physiology, 169:2102-2117

Liu Y, Dai SJ*, Xing LJ*, Xu YY, Chong K. 2015. O-linked b-N-acetylglucosamine modification and its biological functions. Science Bulletin, 60(12):1055–1061.

Zhang ZY, Li JH, Liu HH, Chong K, Xu YY*. 2015. Roles of ubiquitination-mediated protein degradation in plant responses to abiotic stresses. Environmental and Experimental Botany, 114:92-103

Ma Y#, Dai X#, Xu YY#, Luo W#, Zheng X, Zeng D, Pan Y, Lin X, Liu H, Zhang D, Xiao J, Guo X, Xu S, Niu Y, Jin J, Zhang H, Xu X, Li L, Wang W, Qian Q, Ge S, Chong K*. 2015. COLD1 confers chilling tolerance in rice. Cell, 160:1209-1221

Liu HH, Guo SY, Xu YY, Li CH, Zhang ZY, Zhang DJ, Xu SJ, Zhang C, Chong K*. 2014. OsmiR396d-regulated OsGRFs function in floral organogenesis in rice through binding to their targets OsJMJ706 and OsCR4. Plant Physiology, 165:160-174

Liu HH, Ma Y, Chen N, Guo SY, Liu HL, Guo XY, Chong K, Xu YY*. 2014. Overexpression of stress-inducible OsBURP16, the β subunit of polygalacturonase 1, decreases pectin content and cell adhesion and increases abiotic stress sensitivity in rice. Plant Cell  & Environment, 1144-1158

Xiao J, Xu SJ, Li CH, Xu YY, Xing LJ, Niu YD, Huan Q, Tang YM, Zhao CP, Wagner D, Gao CX, Chong K*. 2014. O-GlcNAc-mediated interaction between VER2 and TaGRP2 elicits TaVRN1 mRNA accumulation during vernalization in winter wheat. Nature Communications, 5:4572

Chen Y, Xu YY, Luo W, Li WX, Chen N, Zhang DJ, Chong K*. 2013. The F-box protein OsFBK12 targets OsSAMS1 for degradation and affects leaf senescence and seed size in rice. Plant Physiology, 163:1673-1685

Yang A, Li YS, Xu YY, Zhang WH*. 2013. A receptor-like protein RMC is involved in regulation of iron acquisition in rice. Journal of Experimental Botany, 64:5009-5020

Zhang YY, Li BB, Xu YY, Li H, Li SS, Zhang DJ, Mao ZW, Guo SY, Yang CH, Weng YX, Chong K*. 2013. The cyclophilin CYP20-2 modulates the conformation of BRASSINAZOLE-RESISTANT1, which binds the promoter of FLOWERING LOCUS D to regulate flowering in Arabidopsis. Plant Cell, 25:2504-2521

Guo SY#, Xu YY#, Liu HH, Mao ZW, Zhang C, Ma Y, Zhang QR, Meng Z, Chong K*. 2013. The interaction between OsMADS57 and OsTB1 modulates rice tillering via DWARF14. Nature Communications,  4:1566 

Li JH, Han YY, Zhao QZ, Li CH, Xie Q, Chong K, Xu YY*. 2013. The E3 ligase AtRDUF1 positively regulates salt stress responses in Arabidopsis thaliana. PLoS ONE,  8:e71078

Zhang DJ, Wang XM, Wang M, Li JH, Guo XY, Chong K, Xu YY*. 2013. Ectopic expression of WUS in hypocotyl promotes cell division via GRP23 in Arabidopsis. PLoS ONE,  8: e75773 

Xiao J, Zhang H, Xing LJ, Xu SJ, Liu HH, Chong K, Xu YY*. 2013. Requirement of histone acetyltransferases HAM1 and HAM2 for epigenetic modification of FLC in regulating flowering in Arabidopsis. Journal Plant Physiology, 170:444-451

Chen Y, Li F, Ma Y, Chong K, Xu YY*. 2013. Overexpression of OrbHLH001, a putative helix-loop-helix transcription factor, causes increased expression of AKT1 and salt tolerance in rice.Journal Plant Physiology, 170:93-100

Huan Q, Mao ZW, Zhang JY, Xu YY, Chong K*. 2013. Transcriptome-wide analysis of vernalization reveals conserved and species-specific mechanisms in Brachypodium. Journal of Integrative Plant Biology, 55:696-709. 

Li J, Xu YY, Chong K*. 2012. The novel functions of kinesin motor proteins in plants. Protoplasma, 249:S95-S100

Zhang C, Xu YY, Guo SY, Zhu JY, Huan Q, Liu HH, Wang L, Luo GZ, Wang XJ, Chong K*. 2012. Dynamics of brassinosteroid response modulated by negative regulator LIC in rice. PLoS Genetics, 8:e1002686

Li CJ, Liu ZJ, Zhang QR, Wang RZ, Xiao LT, Ma H, Chong K, Xu YY*. 2012. SKP1 is involved in ABA signaling to regulate seed germination, stomatal opening and root growth in Arabidopsis thalianaPlant Cell and Environment, 35:952-965
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