师资队伍

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副高

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刘唤唤

发布时间 :2021年03月11日 浏览量 :1181


长期从事植物与环境互作相关的研究工作,并期望为作物抗逆遗传育种提供理论依据和基因资源。我们主要以西藏生态型拟南芥、四川生态型拟南芥及全球分布的约500种拟南芥生态型为研究对象,从事植物氧气和紫外的感知与信号转导研究。以第一作者或通讯作者Plant CellNew phytologistPlant PhysiologyPlant JournalPlant cell & Environment等植物学主流期刊发表论文多篇。参与讲授《生物安全导论》和《专业英语文献导读与写作》2门课程。

工作和学习经历:

201707-至今 网赌正规网站排名,副研究员

201601-201706 中国科学院成都生物研究所,助理研究员

201402-201512 中国科学院青岛生物能源与过程研究所,博士后

200709-201401 中国科学院植物研究所,博士学位

200309-200706 鲁东大学,学士学位

研究方向:

植物氧气和紫外的感知与信号转导

项目:

国家自然科学基金面上项目,项目名称:拟南芥UIE-UVS1-FHY3功能模块参与紫外光信号通路的分子机制,研究起止年月:2019-012022-12

国家自然科学基金青年项目,项目名称:两个C3H类锌指蛋白调控拟南芥育性的分子机制研究,研究起止年月:2015-012017-12

联系方式: [email protected]

代表性论文:#,第一作者;*,通讯作者

[1] Liu B#, Jiang YZ#, Tang H, Tong SF, Lou SL, Zhang JL, Shao C, Song Y, Chen NN, Bi H, Zhang H, Li JH, Liu JQ, Liu HH*. (2021). The ubiquitin e3 ligase SR1 modulates the submergence response by degrading phosphorylated WRKY33 in Arabidopsis. Plant Cell, online, doi: 10.1093/plcell/koab062.

[2] Tang H, Bi H, Liu B, Lou SL, Song Y, Tong SF, Chen NN, Jiang YZ, Liu JQ, Liu HH*. (2021). WRKY33 interacts with WRKY12 protein to up-regulate RAP2.2 during submergence induced hypoxia response in Arabidopsis thaliana. New Phytologist 229: 106-125.

[3] Liu HH, Liu B, Lou SL, Bi H, Tang H, Tong SF, Song Y, Chen NN, Zhang H, Jiang YZ*, Liu JQ*. (2021). CHYR1 ubiquitinates the phosphorylated WRKY70 for degradation to balance immunity in Arabidopsis thaliana. New Phytologist, online, doi: 10.1111/nph.17231.

[4] Jiang YZ, Tong SF, Chen NN, Liu B, Bai QX, Chen Y, Bi H, Zhang ZY, Lou SL, Tang H, Liu JQ, Ma T, Liu HH*. (2021). The PalWRKY77 transcription factor negatively regulates salt tolerance and ABA signaling in Populus. Plant Journal, online, doi: 10.1111/tpj.15109.

[5] Zhong LL#; Liu HH#; Ru DF; Hu H; Hu QJ*. (2019). Population genomic evidence for radiative divergence of four Orychophragmus (Brassicaceae) species in eastern Asia, Botanical Journal of the Linnean Society 191: 18-29.

[6] Tang YY#, Liu HH#, Guo SY, Wang B, Li ZT, Chong K*, Xu YY*. (2018). OsmiR396d affects Gibberellin and Brassinosteroid signaling to regulate plant architecture in rice, Plant Physiology 176: 946-959.

[7] 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(6): 731-743.

[8] Ma Y#, Dai XY#, Xu YY#, Luo W#, Zheng XM, Zeng DL, Pan YJ, Lin XL, Liu HH, Zhang DJ, Xiao J, Guo XY, Xu SJ, Niu YD, Jin JB, Zhang H, Xu X, Li LG, Wang W, Qian Q, Ge S, Chong K*. (2015). COLD1 confers chilling tolerance in rice. Cell 160: 1209-1221.

[9] Liu HH#, Guo SY#, Xu YY, Li CH, Zhang ZY, Zhang DJ, Xu SJ, Zhang C, Chong K*. (2014). OsmiR396d-dependent OsGRFs are required for floral organogenesis through binding to the targets OsJMJ706 and OsCR4 in rice, Plant Physiology 165: 160-174.

[10] 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 37(5):1144-1158.

[11] Guo SY#, Xu YY#, Liu HH, Mao ZW, Zhang C, Ma Y, Zhang QR, Meng Z, Chong K*. (2013). miR444a-dependent OsMADS57 interacts with TCP transcription factor OsTB1 and targets D14 to control rice tillering. Nature Communications, 4: 1566-1574.


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