个人简介
教育经历 1989年-1993年,武汉大学生命科学院,生物化学学士; 1993年-1995年,法国巴黎第十三大学,分子生物学及生物材料学硕士; 1996年-1998年,法国巴黎第十二大学,分子生物学及生物化学博士。 工作经历 1999年-2001年,法国巴黎国家科学研究中心Cochin研究所,博士后; 2001年-2003年,美国赛诺菲-安万特药业公司研发中心和法国蒙彼利埃国家科学研究中心功能基因研究所,博士后; 2003年至今,华中科技大学生命科学与技术学院,教授,副院长;分子生物物理教育部重点实验室常务副主任;科技部感知生物学与技术国际联合实验室主任。 学术兼职 中国生物物理学会理事、湖北生物物理学会副会长、Biophysics Reports 杂志编委
研究领域
1) 从事G蛋白偶联受体(GPCR)结构与功能相关性以及细胞信号转导通路研究;深入研究重要神经递质GPCR在神经和精神疾病中的作用机制; 2) 研究衰老及长寿的分子机制; 3) 研究癌症发生发展过程中的细胞信号转导通路。 4) 开展分子药理学研究,主要集中开发细胞水平的功能检测的新方法和新技术。
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
1.Gong et al., (2016) The C. elegans taste receptor homolog LITE-1 is a photoreceptor. Cell.167(5):1252-1263. 2.Xue et al., (2015) Major ligand-induced rearrangement of the heptahelical domain interface in a G protein-coupled receptor dimer. Nat Chem Biol.11(2):134-40. 3.Chun et al., (2015) Metabotropic GABA signalling modulates longevity in C. elegans. Nat Commun.6: 8828. 4.Li et al., (2016) Promotion of behavior and neuronal function by reactive oxygen species in C. elegans. Nat Commun.7:13234. 5.Xu et al., (2014) Single-Cell Chemical Proteomics with an Activity-Based Probe: Identification of Low-Copy Membrane Proteins on Primary Neurons. Angew Chem Int Ed Engl. 53(26):6730-3. 6.Zhang et al., (2018) Brain-gut communications via distinct neuroendocrine signals bidirectionally regulate longevity in C. elegans. Genes Dev. 32(3-4):258-270. 7.Liu et al., (2017) Allosteric control of an asymmetric transduction in a G protein-coupled receptor heterodimer. Elife. 6.pii: e26985. 8.Zhang et al., (2015) Environmental temperature differentially modulates C. elegans longevity through a thermosensitive channel. Cell Rep. 11(9):1414-24. 9.Jiang et al., (2013) Structure of the YajR transporter suggests a transport mechanism based on the conserved motif A. Proc Natl Acad Sci. 110(36):14664-9. 10.Xia et al., (2017) GABABR-Induced EGFR Transactivation Promotes Migration of Human Prostate Cancer Cells. Mol Pharmacol. 92(3):265-277. 11.Sun et al., (2016) A negative allosteric modulator modulates GABAB-receptor signalling through GB2 subunits. Biochem J. 473(6):779-87. 12.Zhang et al., (2015) GABAB receptor promotes its own surface expression by recruiting a Rap1-dependent signaling cascade. J Cell Sci. 128(12):2302-13. 13.Zhang et al., (2015) GABAB receptor upregulates fragile X mental retardation protein expression in neurons. Sci Rep. 5:10468. 14.Wan et al., (2015) Unraveling a molecular determinant for clathrin-independent internalization of the M2 muscarinic acetylcholine receptor. Sci Rep. 5:11408. 15.Chen et al., (2014) Discovery of a Negative Allosteric Modulator of GABAB Receptors. ACS Med Chem Lett. 5(7):742-7. 16.Xu et al., (2014) Complex GABAB receptor complexes: how to generate multiple functionally distinct units from a single receptor. Front Pharmacol. 5:12. 17.Li et al., (2013) FGF-2 Prevents Cancer Cells from ER Stress-Mediated Apoptosis via Enhancing Proteasome-mediated Nck Degradation. Biochem J. 452(1):139-45.