李胜个人简历

一、个人简介

李胜，博士，二级教授，“华南师范大学-昆虫科学与技术研究所”所长。长江学者、“国家杰青”优秀、“百人计划”优秀、全国优秀科技工作者。1994年湖南师范大学生物系本科毕业，2000年获中国科学院上海昆虫研究所动物学博士学位，2006年从约翰霍普金斯大学博士后出站后回国工作。从事昆虫科学研究20余年，在昆虫发育遗传领域、尤其是“昆虫变态发育的激素和营养调控”方向取得了一系列国际领先的研究成果。发表SCI论文75篇，其中Annual Review of Entomology, Autophagy, Cell Research, Development，PLoS Genetics和PNAS等通讯作者和第一作者论文48篇，多篇论文遴选为封面论文或者作为专题评论；授权专利6项。组织和承担了国家自然科学基金多项重点、重点国际合作和面上项目、973课题、863项目、转基因专项等国家级研究任务。多次应邀在重大国际会议做主题和大会报告，多次担任国际大会主席和组委员成员，享有重要的国内外学术声誉。被Journal of Insect Physiology，Insect Science，Bulletin of Entomological Research，Journal of Insect Science和《昆虫学报》等聘为编委；担任中国昆虫学会理事，中国昆虫学会昆虫发育与遗传专业委员会主任等学术职务。

二、联系方式

邮箱：lisheng@scnu.edu.cn

联系电话:020-85215291-816

三、代表论文

1. Li, S.*, Zhu, S., Jia, Q., Yuan, D., Ren, C., Li, K., Liu, S., Cui, Y., Zhao, H., Cao, Y., Fang, G., Li, D., Zhao, X., Zhang, J., Yue, Q., Fan, Y., Yu, X., Feng, Q., Zhan, S., 2018. Genomic adaption to urban environments and developmental plasticity in the American cockroach. Nature Communications, in press. (IF12.124)

2. Liu, S., Li, K., Gao, Y., Liu, X., Chen, W., Ge, W., Feng, Q., Palli, S.R., Li, S.*, 2018. Antagonistic actions of juvenile hormone and 20-hydroxyecdysone within the ring gland determine developmental transitions in Drosophila. PNAS, 115: 139-144. (IF9.661)

3. Ma, L., Li, K., Guo, Y., Sun X., Deng, H., Li, K., Feng, Q., Li, S.*, 2018. Ras-Raf-MAPK signaling promotes nuclear localization of FOXA transcriptional factor SGF1 via Ser91 phosphorylation. BBA-Molecular Cell Research, 1865: 560-571. (IF4.6)

4. Jia, Q., Liu, S., Wen, D., Chen, Y., Bendena, W.G., Wang, J., Li, S.*, 2017. Juvenile hormone and 20-hydroxyecdysone coordinately control the developmental timing of matrix metalloproteinase-induced fat body cell dissociation. Journal of Biological Chemistry, 292: 21504-21516. (IF4.573)

5. Li, K., Tian, L., Guo, Z., Guo, S., Zhang, J., Gu, S-H., Palli, S.R., Cao, Y., Li, S.*, 2016. 20-Hydroxyecdysone (20E) Primary Response Gene E75 isoforms mediate steroidogenesis autoregulation and regulate developmental timing. Journal of Biological Chemistry, 291:18163-18175 (IF4.573)

6. Wen, D., Rivera-Perez, C., Abdou, M., Jia, Q., He, Q., Liu, X., Zyann, O., Xu. J., Bendena, W.G., Tobe, S.S., Noriega, F.G., Palli, S.R., Wang, J., Li, S.*, 2015. Methyl farnesoate plays a dual role in regulating Drosophila metamorphosis. PLoS Genetics, 11:e1005038. (IF 8.167)

7. Liu, X., Dai, F., Guo, E., Li, K., Ma, L., Tian, L., Cao, Y., Palli, S.R., Li, S.*, 2015. 20-Hydroxyecdysone (20E) primary-response gene E93 modulates 20E signaling to promote Bombyx larval-pupal metamorphosis. Journal of Biological Chemistry, 290:27370-27383. (IF 4.68)

8. He, Q., Cui, C., Wen, D., Wang, J., Palli, S.R., Li, S.*, 2014. Hsp83 facilitates Met nuclear import to modulate juvenile hormone signaling. Journal of Biological Chemistry 289:27874-27885. (IF 4.68)

9. Tian, L., Ma, L., Guo, E., Deng, X., Ma, S., Xia, Q., Cao, Y., Li, S.*, 2013. 20-hydroxyecdysone upregulates Atg genes to induce autophagy in the Bombyx fat body. Autophagy, 9:1167-1182. (IF 11.423)

10. Ma, L., Xu, H., Zhu, J., Ma, S., Liu, Y., Jiang, R-J., Xia, Q, Li, S.*, 2011. Ras1CA overexpression in the posterior silk gland improves silk yield. Cell Research, 21:934-943. (IF 11.981) (Highlighted by Belles, X. 2011 Cell Research 21:862-863)

11. Wang, S., Liu, S., Liu, H., Wang, J., Zhou, S., Liu, Y., Jiang, R-J., Bendena, W.G., Li, S.*, 2010. The insect steroid hormone 20-hydroxyecdysone reduces food consumption resulting in fat body lipolysis during molting and pupation. Journal of Molecular Cell Biology, 2:128-138. Cover Story (IF 6.771)

12. Li. S.*, 2010. Identification of iron-loaded ferritin as an essential mitogen for cell proliferation and postembryonic development in Drosophila. Cell Research, 20:1148-1157. (IF 11.981)

13. Liu, Y., Sheng, Z., Liu, H., Wen, W., He, Q., Wang, S., Shao, W., Jiang, R-J., An, S., Sun, Y., Bendena, W.G., Wang, J., Gilbert, L.I., Wilson, T.G., Song, Q., Li, S.*, 2009. Juvenile hormone counteracts the bHLH-PAS transcriptional factor MET and GCE to prevent caspase-dependent programmed cell death in Drosophila. Development 136: 2015-2025. (IF 6.273)