王琴教授 (Qin Wang,PhD,Professor)博士、硕士生导师
“国家青年拔尖人才支持计划”获得者,闽江学者特聘教授,福建省高层次人才
联系地址 (Address):
福建农林大学海峡联合研究院三楼林学中心305室
福建省,福州市 350002,仓山区,上下店路15号,邮编:350002
Email: qinwangCRY@163.com或qinwang@fafu.edu.cn
官网:http://kypy.fafu.edu.cn/bfpc/info/1031/1291.htm
研究团队 (Research Team):
工作人员:王琼丽(副教授)、钟鸣(讲师)、张莉(讲师)、陈票娟(科研助理)
博士后:张静
博士在读研究生:晋欢欢、刘思远、赛留羊、向贤、张小雪
硕士在读研究生:赵倩男、李智慧、陈自银、张昱、别亚雪、王栋、林黎武、孙熔谦、张妮、王有任、刘慧玲、江永红、潘星玲、叶美玲
个人简历 (Curriculum Vitae):
2003-2007年 华南热带农业大学,学士
2007-2013年 湖南大学,硕士、博士
2010-2013年 美国加州大学洛杉矶分校,联合培养博士生
2013-2016年 美国加州大学洛杉矶分校,博士后
2015-2016年 福建农林大学,基础林学与蛋白质组学研究中心,兼职副教授
2017-至今 福建农林大学,海峡联合研究院,基础林学与蛋白质组学研究中心,教授
研究领域 (Research Interests):
植物光生物学(Plant Photobiology)
研究方向 (Current Research Direction):
光不仅是植物进行光合作用的能量来源,同时也是调控植物生长发育及适应环境的重要信号。植物的光响应(light response)如幼苗光形态建成、花期的光周期调节、避荫反应等,主要由光受体(photoreceptor)介导。隐花色素(Cryptochrome, 简称CRY)是其中的一类蓝光受体,它介导蓝光以及光周期对植物的生长与开花等发育过程的调控。本实验室主要研究拟南芥和大豆隐花色素(CRY)的光生物化学与信号转导的分子机制。
代表性论文 (Representative publications):
Jiang B,Zhong Z,Gu L,Zhang X,Wei J,Ye C,Lin G,Qu G,Xiang X,Wen C,Gateas M,Bailey-Serres J,Wang Q,He C, Wang X and Lin C. (2023) Light-induced LLPS of the CRY2/SPA1/FIO1 complex regulating mRNA methylation and chlorophyll homeostasis in Arabidopsis.Nature Plants. https://doi.org/10.1038/s41477-023-01580-0.
Liu S, Zhang L, Gao L, Chen Z, Bie Y, Zhao Q, Zhang S, Hu X, Liu Q, Wang X, Wang Q. (2022) Differential photoregulation of the nuclear and cytoplasmic CRY1 in Arabidopsis New Phytologist(doi: 10.1111/nph.18007).
Wang X, Jiang B, Gu L, Chen Y, Mora M, Zhu M, Noory E, Wang Q, Lin C.(2021) A photoregulatory mechanism of the circadian clock in Arabidopsis Nature Plants 7(10):1397-1408.
Chen Y, Hu X, Liu S, Su T, Huang H, Ren H, Gao Z, Wang X, Lin D, Wohlschlegel JA, Wang Q, Lin C. (2021) Regulation of Arabidopsis photoreceptor CRY2 by two distinct E3 ubiquitin ligases Nature Communications 12(1): 2155. doi: 10.1038/s41467-021-22410-x.
Wu Y,Wang Q,Qu J,Liu W,Gao X,Li X,Yang,X,Lin C,Shuai J. (2021)Different response modes and cooperation modulations of blue-light receptors in photomorphogenesis Plant Cell Environ 44:1802–1815.
Wang Q,Lin C.(2020)A structural view of plant CRY2 photoactivation and inactivation Nat Struct Mol Biol27(5):401-403.
Wang Q, Lin C.(2020) Mechanisms of Cryptochrome-Mediated Photoresponses in Plants Annual Review of Plant Biology 71:103-129.
Liu Q, Su T, He W, Ren H, Liu S, Chen Y, Gao L, Hu X, Lu H, Cao S, Huang Y, Wang X, Wang Q, Lin C.(2020) Photooligomerization determines photosensitivity and photoreactivity of plant cryptochromes Molecular Plant 13: 398-413.
Liu H, Su T, He W, Wang Q and Lin C.(2019)The universally conserved residues are not universally required for stable protein expression or functions of cryptochromes Molecular Biology and Evolution DOI: 10.1093/molbev/msz217.
Wang Q and Lin C.(2019) Photoreceptor signaling: when COP1 meets VPs The EMBO Journal 38(18):e102962.
Wang Q,Liu Q,Wang X,Zuo Z,Oka Y and Lin C.(2018) New insights into the mechanisms of phytochrome-cryptochrome coaction New Phytologist 217:547–551.
Wang Q, Zuo Z, Wang X, Liu Q, Gu L, Oka Y, Lin C.(2018) Beyond the photocycle – how cryptochromes regulate photoresponses in plants? Current Option in Plant Biology 45:120-126.
Wang Q,Liu Q,Wang X,Zuo Z,Oka Y and Lin C. (2017) New insights into the mechanisms of phytochrome–cryptochrome coaction.New Phytologist doi: 10.1111/nph.14886.
Wang X,Wang Q,Han Y,Liu Q,Gu L,Yang Z,Su J,Liu B,Zuo Z,He W,Wang J,Liu B,Minami M,Kim J,Oka Y and Lin C. (2017)A CRY–BIC negative-feedback circuitry regulating blue light sensitivity of Arabidopsis.The Plant Journal 92:426-436.
Liu Q, Wang Q, Deng W, Wang X, Piao M, Cai D, Li Y, William D B, Yu X, Zhou T, Liu B, Oka Y, Wohlschlegel J, Zuo Z and Lin C.(2017) Molecular basis for blue light-dependent phosphorylation of Arabidopsis cryptochrome 2 .Nature Communications doi: 10.1038/ncomms15234.
Wang Q,Zuo Z ,Wang X,Gu L F, Yoshizumi T,Yang,Z H,Liu Q,Liu W,Han Y ,Liu B, Wohlschlegel J A, Matsui M, Oka Y and Lin C.(2016) Photoactivation and inactivation mechanisms of Arabidopsis cryptochrome2 .Science354:343-347.
Liu Q,Wang Q,Liu B,Wang W,Wang X,Park J,Yang Z,Du X,Bian M and Lin C.(2016) The Blue Light-Dependent Polyubiquitination and Degradation of Arabidopsis Cryptochrome2 Requires Multiple E3 Ubiquitin Ligases .Plant Cell Physiol57(10):2175-2186.
Wang Q, Barshop W D, Bian M, Vashisht A A, He R, Yu X, Liu B, Nguyen P, Liu X, Zhao X, Wohlschlegel J A and Lin C.(2015) The Blue Light-Dependent Phosphorylation of the CCE Domain Determines the Photosensitivity of Arabidopsis CRY2 Mol Plant 8(4):631-643.
Wang X, Wang Q ,Nguyen P,Lin C.(2014) Cryptochrome-mediated light responses in plants .Enzymes35:167-189.
Liu H, WangQ, Liu Y, Zhao X, Imaizumi T, Somers D E, Tobin E M and Lin C.(2013) Arabidopsis CRY2 and ZTL mediate blue-light regulation of the transcription factor CIB1 by distinct mechanisms .Proc Natl Acad Sci USA110:17582-17587.
Wang Q, Fristedt R, Yu X, Chen Z, Liu H, Lee Y, Guo H,Merchant S,Lin C.(2012) The γ-carbonic anhydrase subcomplexof mitochondrial complex I is essential for development and important forphotomorphogenesis of Arabidopsis.Plant Physiology160: 1373-1383.
Wang Q, Zhu Z, Ozkardesh K and Lin C.(2012)Phytochromes and phytohormones: Theshrinking degree of separation.Molecular Plant6:5-7.
Li X, Wang Q, Yu X, Liu H, Yang H, Zhao C, Liu X, Tan C, Klejnot J, Zhong D and Lin C.(2011) Arabidopsis CRY2 functions by the photoactivation mechanismdistinct from the trp triad-dependent photoreduction.Proc Natl Acad Sci USA 108:20844-20849.