王琴教授(Qin Wang)博士、硕士生导师，闽江********，福建省境外B类高层次引进人才
联系地址：
福建农林大学海峡联合研究院三楼林学中心305室，邮编：350002
Email: eva.wangqin@gmail.com或qinwang@fafu.edu.cn
研究团队：
工作人员：柳青（副教授）、王巍（讲师）、苏军（讲师）
博士在读研究生：陈亚迪、胡小华、朱腾飞
硕士在读研究生：张艺、高林、黄颖、李玉红、刘思远、鲁皓月、李敏、王丹、张珊珊、江丹丹、张文祥、林湘芝、王琳、蒋乐俏
个人经历：
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
研究方向：
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。本课题组主要以植物（拟南芥、竹子）为研究对象，使用植物生理、生物化学、分子遗传及各类组学等方法，研究隐花色素（Cryptochrome）的光生物化学与信号转导及光响应植物生长发育过程调控的分子机制。发表论文(*为通讯作者）：
Wang Q^#, Lin C*.（2020）A structural view of plant CRY2 photoactivation and inactivationNat Struct Mol Biol27(5):401-403.
Wang Q^#, Lin C*.(2020) Mechanisms of Cryptochrome-Mediated Photoresponses in PlantsAnnual Review of Plant Biology71:23.1-23.27.
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 cryptochromesMolecular Plant13: 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 cryptochromesMolecular Biology and EvolutionDOI: 10.1093/molbev/msz217.
Wang Q and Lin C*.(2019) Photoreceptor signaling: when COP1 meets VPsThe EMBO Journal38(18):e102962.
Wang Q^#,Liu Q,Wang X,Zuo Z,Oka Y and Lin C*.(2018)New insights into the mechanisms of phytochrome-cryptochrome coactionNew Phytologist217:547–551.
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 Biology45:120-126.
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 ArabidopsisThe Plant Journal92:426-436.
Wang W,Gu L,Ye S,Zhang H,Cai C,Xiang M,Gao Y,Wang Q,Lin C and Zhu Q*. (2017)Genome-wide analysis and transcriptomic profiling of the auxin biosynthesis,transport and signaling family genes in moso bamboo (Phyllostachys heterocycla)BMC Genomics18:870 DOI 10.1186/s12864-017-4250-0.

Liu Q^#, Wang Q^#, Deng W, Wang X,Piao M, Cai D, Li Y, Barshop W D, 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 2Nature Communicationsdoi: 10.1038/ncomms15234.

He R, Li X, Zhong M, Yan J, Ji R, Li X, Wang Q, Wu Dan, Sun M, Tang D, Lin J, Li H, Liu B, Liu H, Liu X, Zhao X*and Lin C*. (2017) A photo-responsive F-box protein FOF2 regulates floral initiation by promoting FLC expression in ArabidopsisThe Plant Journal 91: 788-801.
Wang Q^#,Zuo Z ^#,Wang X,Gu L F, Yoshizumi T,Yang,Z H,Liu Q,Liu W,Han Y J,Liu B, Wohlschlegel J A, Matsui M, Oka Y and Lin C*.(2016)Photoactivation and inactivation mechanisms of Arabidopsis cryptochrome2Science354:343-347.

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 LigasesPlant Cell Physiol57(10):2175-2186.

Yang L, Wang X, Deng W, Mo W, Gao J , Liu Q, Zhang C, Wang Q, Lin C and Zuo Z.*(2016) Using HEK293 expression system to study photoactive plant cryptochromes Frontiers in Plant Sciences7: 940.
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 CRY2Mol Plant8(4):631-643.
Wang X, Wang Q, Nguyen P，Lin C*.(2014)Cryptochrome-mediated light responses in plantsEnzymes35:167-189.

Meng Y, Li H, Wang Q, Liu B and Lin C*.(2013)Blue Light-Dependent Interaction between Cryptochrome2 and CIB1 Regulates Transcription and Leaf Senescence in SoybeanPlant Cell25: 4405-4420.
Liu H, Wang Q, 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 mechanismsProc Natl Acad Sci U S A110:17582-17587.
Fristedt R, Scharff L.B, Clarke C.A, Wang Q, Lin C, Merchant S.S, Bock R*.(2013)RBF1, a Plant Homologof the Bacterial Ribosome-Binding Factor RbfA, Acts in Processing of theChloroplast 16S Ribosomal RNAPlant Physiology164: 201-215.
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 ArabidopsisPlant Physiology160: 1373-1383.
Wang Q^#, Zhu Z, Ozkardesh K and Lin C*.(2012)Phytochromes and phytohormones: Theshrinking degree of separationMolecular 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 photoreductionProc Natl Acad Sci U S A108:20844-20849.