姓名：	李继刚
性别：	男
系别：	植物科学
职称：	教授
学位：	博士

李继刚 博士，教授，博士生导师。植物抗逆高效全国重点实验室课题组长。2006年毕业于北京大学生命科学学院，获理学博士学位；2007年-2013年在美国耶鲁大学分子、细胞与发育生物学系从事博士后研究。2013年受聘为中国农业大学生物学院教授。2014年入选中组部第五批青年人才计划，2022年获得“国家杰出青年科学基金”资助。2020年和2023年分别获得中国植物生理与植物分子生物学学会颁发的“卫志明青年创新奖”和“中科三安光生物学杰出贡献奖”。主要研究光和逆境信号交叉互作调控植物生长发育的分子机制，包括光敏色素信号转导和避荫反应的分子机制，光与温度信号互作的机制，以及光与ABA信号拮抗的调控机制等。近年来以通讯作者（包括共同通讯作者）在Molecular Plant、Plant Cell、EMBO Journal、PNAS和New Phytologist等国际学术期刊发表论文十余篇，入选2021年Clarivate全球高被引科学家。任国际学术期刊Journal of Integrative Plant Biology和Stress Biology编委。

学习与工作经历

教育背景

1997年9月－2001年7月，华东理工大学，工学学士学位

2001年9月－2006年7月，北京大学，理学博士学位

工作经历

2007年1月－2011年1月，耶鲁大学，博士后（Postdoctoral Associate）

2011年1月－2013年6月，耶鲁大学，副研究科学家（Associate Research Scientist）

2013年7月－至今，中国农业大学，教授

研究方向

光调控植物逆境响应的分子机制

光是调控植物生长和发育最重要的环境信号之一，不但为植物提供光合作用所需的能量，而且还作为重要的环境信号，调控植物生长发育的多个过程以及对非生物逆境（旱、盐、冷等）的应答反应。本实验室主要通过分子生物学、遗传学和生物化学等手段，系统研究光和逆境信号交叉互作调控植物生长发育的分子机制。我们的长期目标是为提高作物的光能利用率和抗逆性奠定坚实的理论基础。

我们的主要研究进展包括：

1) 鉴定了光敏色素信号途径的新组分TZP、MYB30和14-3-3蛋白，提出细胞核中的光敏色素Pr形式可能具有生物学活性的新观点，揭示磷酸化phyA的生理功能及其形成的调控机制，丰富了光敏色素信号感知和传递的基础理论；

2) 阐明了PIF-CBF模块介导光与低温信号互作的分子机制，表明植物根据光、温信号平衡自身发育和对低温的耐受性；

3) 揭示了光拮抗ABA信号的分子机制，表明植物会根据环境的光信号调节其内源ABA信号途径，从而平衡自身发育和对逆境的耐受性。

主讲课程

研究生 《现代生命科学研究技术（酵母单杂交）》、《植物学Seminar》

联系方式

电话：86-010-62734853

邮件：jigangli at cau.edu.cn

通讯地址：北京圆明园西路2号，中国农业大学生物学院，100193

发表文章

# Equal Contribution, * Corresponding Author

1) Li H, Zhou Y, Qin X, Peng J, Han R, Lv Y, Li C, Qi L, Qu GP, Yang L, Li Y, Terzaghi W, Li Z, Qin F, Gong Z, Deng XW*, Li J* (2023). Reconstitution of phytochrome A-mediated light modulation of the ABA signaling pathways in yeast. Proc Natl Acad Sci USA 120:e2302901120.

2) Han R#, Ma L#, Lv Y, Qi L, Peng J, Li H, Zhou Y, Song P, Duan J, Li J, Li Z, Terzaghi W, Guo Y, Li J* (2023). SALT OVERLY SENSITIVE2 stabilizes phytochrome-interacting factors PIF4 and PIF5 to promote Arabidopsis shade avoidance. Plant Cell35:2972-2996.

3) Ma L#, Han R#, Yang Y, Liu X, Li H, Zhao X, Li J, Fu H, Huo Y, Sun L, Yan Y, Zhang H, Li Z, Tian F, Li J*, Guo Y*(2023). Phytochromes enhance SOS2-mediated PIF1 and PIF3 phosphorylation and degradation to promote Arabidopsis salt tolerance. Plant Cell35:2997-3020.

4) Song P#, Yang Z#, Guo C, Han R, Wang H, Dong J, Kang D, Guo Y, Yang S, Li J* (2023). 14-3-3 proteins regulate photomorphogenesis by facilitating light-induced degradation of PIF3. New Phytol237:140-159.

5) Lin X, Dong L, Tang Y, Li H, Cheng Q, Li H, Zhang T, Ma L, Xiang H, Chen L, Nan H, Fang C, Lu S, Li J, Liu B, Kong F (2022). Novel and multifaceted regulations of photoperiodic flowering by phytochrome A in soybean. Proc Natl Acad Sci USA119:e2208708119.

6) Li T, Li H, Lian H, Song P, Wang Y, Duan J, Song Z, Cao Y, Xu D, Li J, Zhang H (2022). SICKLE represses photomorphogenic development of Arabidopsis seedlings via HY5- and PIF4-mediated signaling. J Integr Plant Biol64:1706-1723.

7) Wang Y, Su C, Yu Y, He Y, Wei H, Li N, Li H, Duan J, Li B, Li J, Davis SJ, Wang L (2022). TIME FOR COFFEE regulates phytochrome A-mediated hypocotyl growth through dawn-phased signaling. Plant Cell 34:2907-2924.

8) Peng J, Wang M, Wang X, Qi L, Guo C, Li H, Li C, Yan Y, Zhou Y, Terzaghi W, Li Z, Song CP, Qin F, Gong Z, Li J* (2022). COP1 positively regulates ABA signaling during Arabidopsis seedling growth in darkness by mediating ABA-induced ABI5 accumulation.Plant Cell34:2286-2308.

9) Qi L#, Shi Y#, Terzaghi W, Yang S*, Li J* (2022). Integration of light and temperature signaling pathways in plants. J Integr Plant Biol64:393-411.

10) Li C#, Qi L#, Zhang S, Dong X, Jing Y, Cheng J, Feng Z, Peng J, Li H, Zhou Y, Wang X, Han R, Duan J, Terzaghi W, Lin R, Li J*(2022).Mutual upregulation of HY5 and TZP in mediating phytochrome A signaling. Plant Cell34:633-654.

11) Li Y, Shi Y, Li M, Fu D, Wu S, Li J, Gong Z, Liu H, Yang S (2021). The CRY2-COP1-HY5-BBX7/8 module regulates blue light-dependent cold acclimation in Arabidopsis. Plant Cell33:3555-3573.

12) Liu S, Yang L, Li J, Tang W, Li J, Lin R (2021). FHY3 interacts with phytochrome B and regulates seed dormancy and germination. Plant Physiol187:289-302.

13) LiJ*,Hiltbrunner A*(2021). Is the Pr form of phytochrome biologically active in the nucleus? Mol Plant14:535-537.

14) Li H, Qin X, Song P, Han R, Li J* (2021). A LexA-based yeast two-hybrid system for studying light-switchable interactions of phytochromes with their interacting partners. aBIOTECH2:105–116.

15) Song P, Zhang S, Li J*(2021). Co-immunoprecipitation assays to detect in vivo association of phytochromes with their interacting partners. Methods Mol Biol 2297:75-82.

16) Pan W, Lin B, Yang X, Liu L, Xia R, Li J, Wu Y, Xie Q (2020). The UBC27-AIRP3 ubiquitination complex modulates ABA signaling by promoting the degradation of ABI1 in Arabidopsis. Proc Natl Acad Sci USA 117:27694-27702.

17) Gong Z, Xiong L, Shi H, Yang S, Herrera-Estrella LR, Xu G, Chao DY, Li J, Wang PY, Qin F, Li J, Ding Y, Shi Y, Wang Y, Yang Y, Guo Y, Zhu JK (2020). Plant abiotic stress response and nutrient use efficiency. Sci China Life Sci63:635-674.

18) Dong X, Yan Y, Jiang B, Shi Y, Jia Y, Cheng J, Shi Y, Kang J, Li H, Zhang D, Qi L, Han R, Zhang S, Zhou Y, Wang X, Terzaghi W, Gu H, Kang D*, Yang S*, Li J*(2020). The cold response regulator CBF1 promotes Arabidopsishypocotyl growth at ambient temperatures. EMBO J39:e103630.

19) Yan Y, Li C, Dong X, Li H, Zhang D, Zhou Y, Jiang B, Peng J, Qin X, Cheng J, Wang X, Song P, Qi L, Zheng Y, Li B, Terzaghi W, Yang S, Guo Y, Li J*(2020). MYB30 is a key negative regulator of Arabidopsisphotomorphogenic development that promotes PIF4 and PIF5 protein accumulation in the light. Plant Cell32:2196-2215.

This paper was featured in:

Bertoni G. MYB30 regulates photomorphogenesis via interactions with active phytochromes and PIFs.Plant Cell32: 2065–2066.

20) Jiang B, Shi Y, Peng Y, Jia Y, Yan Y, Dong X, Li H, Dong J, Li J, Gong Z, Thomashow MF, Yang S (2020). Cold-Induced CBF-PIF3 interaction enhances freezing tolerance by stabilizing the phyB thermosensor in Arabidopsis.Mol Plant13:894-906.

21) Qu GP, Li H, Lin XL, Kong X, Hu ZL, Jin YH, Liu Y, Song HL, Kim DH, Lin R, Li J, Jin JB (2020). Reversible SUMOylation of FHY1 regulates phytochrome A signaling in Arabidopsis. Mol Plant 13:879-893.

22) Qi L, Liu S, Li C, Fu J, Jing Y, Cheng J, Li H, Zhang D, Wang X, Dong X, Han R, Li B, Zhang Y, Li Z, Terzaghi W, Song CP, Lin R, Gong Z, Li J* (2020). PHYTOCHROME-INTERACTING FACTORS interact with the ABA receptors PYL8 and PYL9 to orchestrate ABA signaling in darkness. Mol Plant13:414-430.

23) Zhang H, Zhang Q, Zhai H, Gao S, Yang L, Wang Z, Xu Y, Huo J, Ren Z, Zhao N, Wang X, Li J, Liu Q, He S (2020). IbBBX24 promotes the jasmonic acid pathway and enhances fusarium wilt resistance in sweet potato. Plant Cell32:1102-1123.

24) Qin N, Xu D, Li J, Deng XW (2020). COP9 signalosome: Discovery, conservation, activity, and function. J Integr Plant Biol62:90-103.

25) Wen C, Zhao W, Liu W, Yang L, Wang Y, Liu X, Xu Y, Ren H, Guo Y, Li C, Li J, Weng Y, Zhang X (2019). CsTFL1 inhibits determinate growth and terminal flower formation through interaction with CsNOT2a in cucumber. Development146:dev180166.

26) Wang L, Cheng M, Yang Q, Li J, Wang X, Zhou Q, Nagawa S, Xia B, Xu T, Huang R, He J, Li C, Fu Y, Liu Y, Bao J, Wei H, Li H, Tan L, Gu Z, Xia A, Huang X, Yang Z, Deng XW (2019). Arabinogalactan protein-rare earth element complexes activate plant endocytosis. Proc Natl Acad Sci USA116:14349-14357.

27) Zhang H, Gao X, Zhi Y, Li X, Zhang Q, Niu J, Wang J, Zhai H, Zhao N, Li J, Liu Q, He S (2019). A non-tandem CCCH-type zinc-finger protein, IbC3H18, functions as a nuclear transcriptional activator and enhances abiotic stress tolerance in sweet potato. New Phytol223:1918-1936.

28) Du XQ, Wang FL, Li H, Jing S, Yu M, Li J, Wu WH, Kudla J, Wang Y (2019). The transcription factor MYB59 regulates K⁺/NO₃^-translocation in the Arabidopsisresponse to low K⁺stress. Plant Cell31:699-714.

29) Zhang L, Zhang X, Wang X, Xu J, Wang M, Li L, Bai G, Fang H, Hu S, Li J, Yan J, Li J, Yang X (2019). SEED CAROTENOID DEFICIENT functions in isoprenoid biosynthesis via the plastid MEP pathway. Plant Physiol179:1723-1738.

30) Wang X, Guo C#, Peng J#, Li C#, Wan F#, Zhang S, Zhou Y, Yan Y, Qi L, Sun K, Yang S, Gong Z, Li J*(2019). ABRE-BINDING FACTORS play a role in the feedback regulation of ABA signaling by mediating rapid ABA induction of ABA co-receptor genes.New Phytol221:341-355.

31) Zhou Y#, Yang L#, Duan J, Cheng J, Shen Y, Wang X, Han R, Li H, Li Z, Wang L, Terzaghi W, Zhu D, Chen H, Deng XW*, Li J* (2018). Hinge region of Arabidopsis phyA plays an important role in regulating phyA function. Proc Natl Acad Sci USA 115:E11864-E11873.

32) Wang Q, Qu GP, Kong X, Yan Y, Li J, Jin JB (2018). Arabidopsissmall ubiquitin-related modifier protease ASP1 positively regulates abscisic acid signaling during early seedling development. J Integr Plant Biol60:924-937.

33) Wang K, He J, Zhao Y, Wu T, Zhou X, Ding Y, Kong L, Wang X, Wang Y, Li J, Song CP, Wang B, Yang S, Zhu JK, Gong Z (2018). EAR1 negatively regulates ABA signaling by enhancing 2C protein phosphatase activity. Plant Cell30:815-834.

34) Zhang S#, Li C#, Zhou Y, Wang X, Li H, Feng Z, Chen H, Qin G, Jin D, Terzaghi W, Gu H, Qu LJ, Kang D*, Deng XW, Li J*(2018). TANDEM ZINC-FINGER/PLUS3 is a key component of phytochrome A signaling. Plant Cell30:835-852.

This paper was featured in:

Salomé PA. Developmental timing is everything: TZP and phytochrome signaling.Plant Cell30:741-742.

35) Jin D, Wu M, Li B, Bücker B, Keil P, Zhang S, Li J, Kang D, Liu J, Dong J, Deng XW, Irish V, Wei N (2018). The COP9 Signalosome regulates seed germination by facilitating protein degradation of RGL2 and ABI5. PLoS Genet14:e1007237.

36) Xin X, Chen W, Wang B, Zhu F, Li Y, Yang H, Li J, Ren D (2018). Arabidopsis MKK10-MPK6 mediates red-light-regulated opening of seedling cotyledons through phosphorylation of PIF3. J Exp Bot69:423-439.

37) Wang Z, Wang J, Li N, Li J, Trail F, Dunlap JC, Townsend JP (2018). Light sensing by opsins and fungal ecology: NOP-1 modulates entry into sexual reproduction in response to environmental cues. Mol Ecol27:216-232.

38) LianN#, Liu X#, Wang X#, Zhou Y, Li H, Li J*, Mao T* (2017). COP1 mediates dark-specific degradation of microtubule-associated protein WDL3 in regulating Arabidopsishypocotyl elongation. Proc Natl Acad Sci USA 114:12321-12326.

39) Jiang B#, Shi Y#, Zhang X, Xin X, Qi L, Guo H, Li J*, Yang S* (2017). PIF3 is a negative regulator of the CBFpathway and freezing tolerance in Arabidopsis. Proc Natl Acad Sci USA 114:E6695-E6702.

40) Li J, Wu Y, Xie Q, Gong Z (2017) Abscisic acid. In: Li J, Li C, Smith SM (Eds.), Hormone Metabolism and Signaling in Plants. Academic Press, United States of America, 161-202.

41) Wang L, He J, Yang Q, Lv X, Li J, Chen DDY, Ding X, Huang X, Zhou Q (2017) Abnormal pinocytosis and valence-variable behaviors of cerium suggested a cellular mechanism for plant yield reduction induced by environmental cerium. Environ Pollut230:902-910.

42) Xu D, Jiang Y, Li J, Lin F, Holm M, Deng XW (2016). BBX21, an Arabidopsis B-box protein, directly activates HY5and is targeted by COP1 for 26S proteasome-mediated degradation. Proc Natl Acad Sci USA113:7655-7660.

43) Wang Z, Li N, Li J, Dunlap JC, Trail F, Townsend JP (2016). The fast-evolving phy-2 gene modulates sexual development in response to light in the model fungus Neurospora crassa. MBio7:e02148-15.

44) KongL, ChengJ, ZhuY, DingY, MengJ, ChenZ, Xie Q, GuoY, Li;J, YangS, GongZ (2015). Degradation of the ABA co-receptor ABI1 by PUB12/13 U-box E3 ligases. Nat Commun6:8630.

45) Yang L, Li B, Zheng XY, Li J, Yang M, Dong X, He G, An C, Deng XW (2015). Salicylic acid biosynthesis is enhanced and contributes to increased biotrophic pathogen resistance in Arabidopsishybrids. Nat Commun6:7309.

46) Wang C, Zheng Y, Zhao Y, Zhao Y, Li J, Guo Y (2015). SCAB3 is required for reorganization of actin filaments during light quality changes. J Genet Genomics42:161-168.

47) Zhang H, Zhao X, Li J, Cai H, Deng XW, Li L (2014). MicroRNA408 is critical for the HY5-SPL7 gene network that mediates thecoordinated response to light and copper. Plant Cell26:4933-4953.

48) Wang L#, Li J#, Zhou Q, Yang G, Ding XL, Li X, Cai CX, Zhang Z, Wei HY, Lu TH, Deng XW, Huang XH (2014). Rare earth elements activate endocytosis in plant cells. Proc Natl Acad Sci USA 111: 12936-12941. (#<span style="font-family: 'Times New Roman';font-size: 16px;"equal contribution)

49) Xu D, Lin F, Jiang Y, Huang X, Li J, Ling J, HettiarachchiC, Tellgren-RothC, Holm M, Deng XW (2014). The RING-finger E3 ubiquitin ligase COP1 SUPPRESSOR1 negatively regulates COP1 abundance in maintaining COP1 homeostasis in dark-grown Arabidopsis seedlings. Plant Cell26:1981-1991.

50) Xu D#, Li J#, GangappaaSN, HettiarachchiaC, Lin F, AnderssonMX, Jiang Y, Deng XW, HolmM (2014). Convergence of light and ABA signaling on the ABI5promoter. PLoS Genet10:e1004197.(#equal contribution)

51) Zhu D, Wu Z, Cao G, Li J, Wei J, Tsuge T, Gu H, Aoyama TandQu LJ(2014). TRANSLUCENT GREEN, an ERF family transcription factor, controls water balance in Arabidopsisby activating the expression of aquaporin genes. Mol Plant 7:601-615.

52) Li J, Yang L, Jin D, Nezames CD, Terzaghi W and Deng XW (2013). UV-B-induced photomorphogenesis in Arabidopsis. Protein Cell7: 485–492.

53) He G#, Chen B#, Wang X#, Li X#, Li J#, He H, Yang M, Lu L, Qi Y, Wang X and Deng XW (2013). Conservation and divergence of transcriptomic and epigenomic variation in maize hybrids. Genome Biol 14:R57.(#equal contribution)

54) Li B, Duan H, Li J, Deng XW, Yin W and Xia X (2013). Global identification of miRNAs and targets in Populus euphraticaunder salt stress.Plant Mol Biol81: 525-539.

55) Huang X, Ouyang X, Yang P, Lau OS, Li G, Li J, Chen H and Deng XW (2012). Arabidopsis FHY3 and HY5 positively mediate induction of COP1 transcription in response to photomorphogenic UV-B light. Plant Cell24:4590-4606.

56) Zhong S, Shi H, Xue C, Wang L, Xi Y, Li J, Quail PH, Deng XW and Guo H (2012). A molecular framework of light-controlled phytohormone action in Arabidopsis. Curr Biol 22:1530-1535.

This paper was featured in:

Lorrain S and Fankhauser C. Plant development: should I stop or should I grow? Curr Biol22:R645-647.

57) Chen F, Shi X, Chen L, Dai M, Zhou Z, Shen Y, Li J, Li G, Wei N and Deng XW (2012). Phosphorylation of FAR-RED ELONGATED HYPOCOTYL1 is a key mechanism defining signaling dynamics of phytochrome A under red and far-red light in Arabidopsis. Plant Cell24:1907-1920.

58) Yang DL, Yao J, Mei CS, Tong XH, Zeng LJ, Li Q, Xiao LT, Sun TP, Li J, Deng XW, Lee CM, Thomashow MF, Yang Y, He Z and He SY (2012). Plant hormone jasmonate prioritizes defense over growth by interfering with gibberellin signaling cascade.Proc Natl Acad Sci USA109:E1192-E1200.

59) Li J, Terzaghi W and Deng XW (2012). Genomic basis for light control of plant development.Protein Cell3:106-116.

60) Shen H#, He H#, Li J#, Chen W, Wang X, Guo L, Peng Z, He G, Zhong S, Qi Y, Terzaghi W and Deng XW (2012). Genome-wide analysis of DNA methylation and gene expression changes in two Arabidopsisecotypes and their reciprocal hybrids. Plant Cell24:875-892.(#equal contribution)

This paper was featured in:

HofmannNR. A global view of hybrid vigor: DNA methylation, small RNAs, and gene expression.Plant Cell24:841.

61) Li J, Li G, Wang H and Deng XW (2011). Phytochrome signaling mechanisms. Arabidopsis Book9:e148. doi: 10.1199/tab.0148.

62) Ouyang X#, Li J#, Li G#, Li B#, Chen B, Shen H, Huang X, Mo X, Wan X, Lin R, Li S, Wang H and Deng XW (2011). Genome-wide binding site analysis of FAR-RED ELONGATED HYPOCOTYL3 reveals its novel function in Arabidopsisdevelopment. Plant Cell23:2514-2535. (#equal contribution)

63) Li G, Siddiqui H, Teng Y, Lin R, Wan X, Li J, Lau OS, Ouyang X, Dai M, Wan J, Devlin PF, Deng XW and Wang H (2011). Coordinated transcriptional regulation underlying the circadian clock in Arabidopsis. Nat Cell Biol13:616-622.

64) Li J, Li G, Gao S, Martinez C, He G, Zhou Z, Huang X, Lee JH, Zhang H, Shen Y, Wang H and Deng XW (2010). Arabidopsistranscription factor ELONGATED HYPOCOTYL5 plays a role in the feedback regulation of phytochrome A signaling. Plant Cell22:3634-3649.

65) Lee JH, Yoon HJ, Terzaghi W, Martinez C, Dai M, Li J, Byun MO and Deng XW (2010). DWA1 and DWA2, two ArabidopsisDWD protein components of CUL4-based E3 ligases, act together as negative regulators in ABA signal transduction. Plant Cell22:1716-1732.

66) Chen H, Huang X, Gusmaroli G, Terzaghi W, Lau OS, Yanagawa Y, Zhang Y, Li J, Lee JH, Zhu D and Deng XW (2010). ArabidopsisCULLIN4-Damaged DNA Binding Protein 1 interacts with CONSTITUTIVELY PHOTOMORPHOGENIC1-SUPPRESSOR OF PHYA complexes to regulate photomorphogenesis and flowering time. Plant Cell22:108-123.

67) Shen Y, Zhou Z, Feng S, Li J, Tan-Wilson A, Qu LJ, Wang H andDeng XW (2009). Phytochrome A mediates rapid red light–induced phosphorylation of ArabidopsisFAR-RED ELONGATED HYPOCOTYL1 in a low fluence response. Plant Cell21:494-506.

68) Saijo Y, Zhu D, Li J, RubioV, Zhou Z, Shen Y, Hoecker U, Wang H andDeng XW (2008). ArabidopsisCOP1/SPA1 complex and FHY1/FHY3 associate with distinct phosphorylated forms of phytochrome A in balancing light signaling. Mol Cell31:607-613.

69) Yang X, Li J, Pei M, Gu H, Chen Z and Qu LJ (2007). Over-expression of a flower-specific transcription factor gene AtMYB24 causes aberrant anther development. Plant Cell Rep26:219-228.

70) Li J, Li X, Guo L, Lu F, Feng X, He K, Wei L, Chen Z, Qu LJ and Gu H (2006). A subgroup of MYBtranscription factor genes undergoes highly conserved alternative splicing in Arabidopsisand rice. J Exp Bot57:1263-1273.

71) Li J, Yang X, Wang Y, Li X, Gao Z, Pei M, Chen Z, Qu LJ and Gu H (2006). Two groups of MYB transcription factors share a motif which enhances trans-activation activity. Biochem Biophys Res Commun341:1155-1163.

72) Chen Y, Yang X, He K, Liu M, Li J, Gao Z, Lin Z, Zhang Y, Wang X, Qiu X, Shen Y, Zhang L, Deng X, Luo J, Deng XW, Chen Z, Gu H and Qu LJ (2006). The MYB transcription factor superfamily of Arabidopsis: expression analysis and phylogenetic comparison with the rice MYB family. Plant Mol Biol60:107-124.

73) Qin G, Kang D, Dong Y, Shen Y, Zhang L, Deng X, Zhang Y, Li S, Chen N, Niu W, Chen C, Liu P, Chen H, Li J, Ren Y, Gu H, Deng XW, Qu LJ and Chen Z (2003).Obtaining and analysis of flanking sequences from T-DNA transformants of Arabidopsis. Plant Sci165:941-949.

获奖情况

2014年入选中组部第五批青年人才计划。

2020年获得中国植物生理与植物分子生物学学会颁发的“第三届卫志明青年创新奖”。

2022年获得国家杰出青年科学基金资助。

社会兼职

任国际学术期刊Journal of Integrative Plant Biology和Stress Biology编委。