王宏伟 博士

教授，博士生导师

 

简历

1992-1996    清华大学生物科学与技术系，学士

1996-2001    清华大学生物科学与技术系，博士

2001-2006    美国劳伦斯伯克利国家实验室生命科学部，博士后

2006-2008    美国劳伦斯伯克利国家实验室生命科学部，研究科学家

2009-2011    美国耶鲁大学分子生物物理与生物化学系，Tenure-Track助理教授

2010.12-至今      bte365正规网站，教授、博导

2016.04-至今      bte365正规网站，院长

 

主要科研领域和研究方向

冷冻电子显微学研究生物大分子复合体的结构与分子机理。主要研究方向如下：

1. 细胞骨架与生物膜系统相互作用的结构及分子机制；

2. RNA代谢途径中的大分子复合物的结构与分子机理；

3. 冷冻电子显微学结构解析新方法的开发与应用。

 

代表性论文

1. Xu J, Zhao L, Xu Y, Zhao W, Sung P*, and Wang HW*. (2017) Cryo-EM structures of human RAD51 recombinase filaments during catalysis of DNA-strand exchange. Nat. Struct. Mol. Biol., 24:40-46
2. Wang HW*, and Wang JW. (2017) How cryo-electron microscopy and X-ray crystallography complement each other. Protein Sci., 26:32-39 (Review)
3. Wang HW*, Lei J*, and Shi Y*. (2017) Biological cryo-electron microscopy in China. Protein Sci., 26:16-31 (Review)
4. Yang H, Wang J, Liu M, Chen X, Huang M, Tan D, Dong MQ, Wong CC, Wang J*, Xu Y*, and Wang HW*. (2016) 4.4 Å Resolution Cryo-EM structure of human mTOR Complex 1. Protein Cell, 7:878-887
5. Agrawal RK*, Wang HW*, and Belfort M*. (2016) Forks in the tracks: Group II introns, spliceosomes, telomeres and beyond. RNA Biol., 13:1218-1222
6. Liu JJ, Niu CY, Wu Y, Tan D, Wang Y, Ye MD, Liu Y, Zhao W, Zhou K, Liu QS, Dai J, Yang X, Dong MQ, Huang N, and Wang HW*. (2016) CryoEM structure of yeast cytoplasmic exosome complex. Cell Research, 26:822-837
7. Qu G, Kaushal PS, Wang J, Shigematsu H, Piazza CL, Agrawal RK*, Belfort M*, and Wang HW*. (2016) Structure of a group II intron in complex with its reverse transcriptase. Nat. Struct. Mol. Biol., 23:549-557
8. Qin S, Yin H, Yang C, Dou Y, Liu Z, Zhang P, Yu H, Huang Y, Feng J, Hao J, Hao J, Deng L, Yan X, Dong X, Zhao Z, Jiang T, Wang HW, Luo SJ, and Xie C*. (2016) A magnetic protein biocompass. Nat Mater., 15:217-226
9. Jia N, Liu N, Cheng W, Jiang YL, Sun H, Chen LL, Peng J, Zhang Y, Ding YH, Zhang ZH, Wang X, Cai G, Wang J, Dong MQ, Zhang Z, Wu H, Wang HW*, Chen Y*, and Zhou CZ*. (2016) Structural basis for receptor recognition and pore formation of a zebrafish aerolysin-like protein. EMBO Reports, 17:235-248
10. Wang J, Wang W, Song W, Han Z, Zhang H, Chai J*, Wang HW*, and Wang J*. (2015) An improved method for phasing crystal structures with low non-crystallographic symmetry using cryo-electron microscopy data. Protein Cell, 6:919-923 (Letter)
11. Wang HW*. (2015) Opening new doors for understanding eukaryotic RNA splicing. Sci China Life Sci., 58:1171-1172 (Editorial Material)
12. Hu Z, Zhou Q, Zhang C, Fan S, Cheng W, Zhao Y, Shao F, Wang HW, Sui SF*, and Chai J*. (2015) Structural and biochemical basis for induced self-propagation of NLRC4. Science, 350:399-404
13. Tomko RJ Jr*, Taylor DW, Chen ZA, Wang HW, Rappsilber J, and Hochstrasser M*. (2015) A single α helix drives extensive remodeling of the proteasome lid and completion of regulatory particle assembly. Cell, 163:432-444
14. Song W, Wang J, Han Z, Zhang Y, Zhang H, Wang W, Chang J, Xia B, Fan S, Zhang D, Wang J*, Wang HW*, and Chai J*. (2015) Structural basis for specific recognition of single-stranded RNA by Toll-like receptor 13. Nat. Struct. Mol. Biol., 22, 782-787.
15. Wang HW*. (2015) Cryo-electron microscopy for structural biology: current status and future perspectives. Sci. China Life Sci., 58:750-756 (Review)
16. Zhou Q, Huang X, Sun S, Li X, Wang HW*, and Sui SF*. (2015) Cryo-EM structure of SNAP-SNARE assembly in 20S particle. Cell Research, 25:551-560.
17. Chang S, Sun D, Liang H, Wang J, Li J, Guo L, Wang X, Guan C, Boruah BM, Yuan L, Feng F, Yang M, Wang L, Wang Y, Wojdyla J, Li L, Wang J, Wang M, Cheng G, Wang HW*, and Liu Y*. (2015) Cryo-EM Structure of Influenza Virus RNA Polymerase Complex at 4.3 Å Resolution. Mol. Cell, 57:925-935.
18. Liu JJ, Bratkowski MA, Liu X, Niu CY, Ke A*, and Wang HW*. (2014) Visualization of distinct substrate-recruitment pathways in the yeast exosome by EM. Nat. Struct. Mol. Biol., 21:95-102.
19. Li Y, Hsin J, Zhao L, Cheng Y, Shang W, Huang KC, Wang HW, and Ye S*. (2013) FtsZ protofilaments use a hinge-opening mechanism for constrictive force generation. Science, 341:392-295.
20. Taylor DW, Ma E, Shigematsu H, Cianfrocco MA, Noland CL, Nagayama K, Nogales E, Doudna JA*, and Wang HW*. (2013) Substrate-specific structural rearrangements of human Dicer. Nat. Struct. Mol. Biol., 20:662-670.
21. Chen X, Taylor DW, Fowler CC, Galan JE, Wang HW, and Wolin SL*. (2013) An RNA degradation machine sculpted by Ro autoantigen and noncoding RNA. Cell, 153:166-177.
22. Shen QT, Hsiue PP, Sindelar CV, Welch MD, Campellone KG*, and Wang HW*. (2012) Structural insight into WHAMM-mediated cytoskeletal coordination during membrane remodeling. J. Cell Biol., 199:111-124.
23. Zhou K, Kanai R, Lee P, Wang HW*, and Modis Y*. (2012) Toll-like receptor 5 forms asymmetric dimers in the absence of flagellin. J. Struct. Biol., 177:402-409.
24. Liu XQ, and Wang HW*. (2011) Single particle electron microscopy reconstruction of the exosome complex using the random conical tilt method. J. Vis. Exp., doi: 10.3791/2574.
25. Wu X, Shen QT, Stokes N, Lu C, Zheng Q, Polak L, Wang HW, and Fuchs E*. (2011) Skin stem cells orchestrate directional migration by regulating microtubule-ACF7 connections through GSK3β. Cell, 144:341-352.
26. Wang HW*, Noland C, Siridechadilok B, Taylor DW, Ma E, Felderer K, Doudna JA*, and Nogales E*. (2009) Structural insights into RNA processing by the human RISC-loading complex. Nat. Struct. Mol. Biol., 16:1148-1153.
27. Wang HW, Long S, Ciferri C, Westermann S, Drubin DG, Barnes G, and Nogales E*. (2008) Architecture and flexibility of the yeast Ndc80 kinetochore complex. J. Mol. Biol., 383:894-903.
28. Wang HW*, Wang J, Ding F, Callahan K, Bratkowski MA, Bulter JS, Nogales E, and Ke A*. (2007) Architecture of the yeast Rrp44-exosome complex suggests routes of RNA recruitment for 3’-end processing. Proc. Natl. Acad. Sci. USA, 104:16844-16849.
29. Wang HW, Ramey VH, Westermann S, Leschziner A, Welburn JPI, Nakajima Y, Drubin DG, Barnes G, and Nogales E*. (2007) Architecture of the Dam1 kinetochore ring complex and implications for microtubule-driven assembly and force-coupling mechanisms. Nat. Struct. Mol. Biol., 14:721-726.
30. Westermann W, Wang HW, Avila-Sakar A, Drubin DG, Nogales E, and Barnes G*. (2006) The Dam1 kinetochore ring complex moves processively on depolymerizing microtubule ends. Nature, 440:565-569.
31. Wang HW, and Nogales E*. (2005) The nucleotide-dependent bending flexibility of tubulin regulates microtubule assembly. Nature, 435:911-915.

 

联系方式

电话：+86-10-62772390 (office)

+86-10-62798651 (lab)

E-mail: hongweiwang@tsinghua.edu.cn

Lab website: http://cryoem.www.niepad.com/