钟桂生 - 中国科学院广州生物医药与健康研究院 -

个人简介

1999年本科, 物理学，安徽大学； 2002年硕士，生物物理，中国科学技术大学； 2007年博士，神经生物学，康奈尔大学； 2007-2015年，先后在康奈尔大学和哈佛大学从事博士后研究。 2015年加入上海科技大学iHuman研究所,生命科学与技术学院,研究员，成立超高分辨率荧光成像平台（目前有STORM/SIM/STED等多种模式的超高成像设备）；目前负责整个研究所的平台运行，包括光镜，电镜，核磁，质谱等，目前平台整体运行良好。值得一提的是目前我们所的两台Titan 300Kv冷冻电镜2018年12月17号开始试运行，效果良好。

研究领域

课题组将结合超分辨显微成像、电生理等方法具体研究以下相关的生物学问题： 2.毛细胞的功能研究以及基因治疗在听力领域的应用。1. GPCR以及骨架蛋白在细胞的结构和功能；我们发展应用STORM,SIM，STED等新的超分辨细胞成像方法；同时我们也注重和医院合作研究疾病的发病以及预防机制

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)Li H, Hua T, Xu YM, Wu YR, Liu Y, Chu CF, Zhao SW, Liu Z-J, Zhong G* (2018) CB1 receptors display a periodic organization. In preparation. (2)Qiao YB*#, Wang ZJ#, Tan TZ#, Chen J#, Lin J, Yang J, Li H, Wang Xj, Zhang LY*, Zhong G* (2018) Enhancer reprogramming promotes TGFβ-induced 2 epithelial-to-mesenchymal transition and cancer metastasis. Nature Communications (Under review) (3) Chu C#, TanF#*, Qi J#, Chen X, Qiao Y, Li H, Su B, He S, Chai R*, Zhong G* (2018) A rationally designed AAV vector enables safe and efficient gene transfer to the supporting cells in the cochlea. Science Advances (Under review) (4) Liu Y#, QiJ#, Chen X#, Tang M#, Chu C, Zhu W, Li H, Tian C, Yang G, Zhong C, Zhang Y, Ni G, He S*, Chai R*, Zhong G* (2018) Critical role of spectrin in hearing development and deafness. Science Advances (Accepted) (5) Qi JY#， Liu Y#, X Chen#, C Chu, Li H, Tian CP, Yang G, Tan ML, Chai RJ*, Zhong G* (2018) Super-resolution imaging reveals a novel cytoskeleton structure in inner hair cells. Cell Discovery (Accepted) (6) Peng Y#, Zhao S#, Wu Y, Cao H, Xu Y , Liu X , Shui WQ, ChengJJ , Zhao SW, Shen L, Ma J, Quinn RJ , Stevens RC, Zhong G*, Liu Z-J * (2018) Identification of Natural Products as Novel Ligands for the Human 5- HT2C Receptor. Biophysics reports 4: 50-61 (7) An B, Wang X, Cui M, Gui X, Mao X, Liu Y, Cenfeng Chu, Li K, Pu J, Ren S, Zhong G, Lu TK, Liu C, Zhong C* (2017) Diverse Supramolecular Nanofiber Networks Assembled by Functional Low-Complexity Domains. ACS Nano 11: 6985-6995 (5)Zhong G#, He J#, Zhou R, Lorenzo DN, Babcock HP, Bennett V & Zhuang X. (2015) The formation of a periodic cytoskeleton structure in neurons during development.Elife e04581. (6) Lorenzo DN, Badea A, Davis JQ, Hostettler J, He J, Zhong G, Zhuang X & Bennett, V (2014) A PIK3C3-Ankyrin-B-Dynactin pathway promotes axonal growth and multiorganelle transport.. J Cell Biol 207: 735-752. (7) Xu K#, Zhong G# & Zhuang X. (2013) Actin, spectrin, and associated proteins form a periodic cytoskeletal structure in axons. Science 339: 452-456. (8)Shim SH, Xia C, Zhong G, Babcock HP, Vaughan JC, Huang B, Wang X, Xu C, Bi G-Q & Zhuang X. (2012) Super-resolution fluorescence imaging of organelles in live cells with photoswitchable membrane probes. PNAS 109: 13978-13983. (9)Zhong G, Shevtsova NA, Rybak IA & Harris-Warrick RM. (2012) Neuronal activity in the isolated mouse spinal cord during spontaneous deletions in fictive locomotion: Insights into locomotor CPG organization. J Physiol 590: 4735-4759. (10)AbbinantiMD, Zhong G & Harris-Warrick RM. (2012) Postnatal Emergence of Serotonin-Induced Plateau Potentials in Commissural Interneurons of the Mouse Spinal Cord. J Neurophysiol 108: 2191-2202. (11) Zhong G, Sharma K & Harris-Warrick RM. (2011) Frequency-dependent recruitment of V2a interneurons during fictive locomotion in the mouse spinal cord. Nature Commun 2: 274. (12) Zhong G, Droho S, Crone S, Dietz S, Kwan A, Webb WW, Sharma K & Harris-Warrick RM. (2010) Electrophysiological characterization of the V2a interneurons and their locomotor-related activity in the neonatal mouse spinal cord. J Neurosci 30: 170-182. （13)Kwan AC, Dietz SB, Zhong G, Harris-Warrick RM & Webb WW. (2010) Spatiotemporal dynamics of rhythmic spinal interneurons measured with two-photon calcium imaging and coherence analysis. J Neurophysiol 104: 3323-3333. (14)Crone S#, Zhong G#, Harris-Warrick RM & Sharma, K. (2009) In mice lacking V2a interneurons, gait depends on speed of locomotion. J Neurosci 29: 7098-7109. (15) Zhong G, Masino MA & Harris-Warrick RM. (2007) Persistent sodium currents participate in fictive locomotion generation in neonatal mouse spinal cord. J Neurosci 27: 4507-4518. (16)Zhong G. (2007) Persistent sodium current in PreBotsinger neurons is not necessary for respiratory rhythm generation in the neonatal mouse? J Physiol 581: 429. (17)Zhong G, Diaz-Rios M & Harris-Warrick RM. (2006) Intrinsic and functional differences among commissural interneurons during fictive locomotion and serotonergic modulation in the neonatal mouse. J Neurosci 26: 6509-6517. (18)Zhong G, Diaz-Rios M & Harris-Warrick RM. (2006) Serotonin modulates the properties of ascending commissural interneurons in the neonatal mouse spinal cord. J Neurophysiol 95: 1545-1555.