郑三多博士
- 基本信息
- 教育经历
- 工作经历
- 研究概述
- 发表文章
郑三多博士 研究员
Sanduo Zheng, Ph.D.
Assistant Investigator, NIBS, BeijingPhone:010-80726688-8565E-mail:zhengsanduo@nibs.ac.cn
教育经历 Education
2013年 北京生命科学研究所与北京师范大学联合培养结构生物学博士
Ph.D. in Structural Biology,
National Institute of Biological Science (NIBS), Beijing & Beijing Normal University, Beijing, China.
2008年 兰州大学生物学基地班学士
B.S., Biological Science,
Lanzhou University, Lanzhou, China
工作经历 Professional Experience
2019-Present |
北京生命科学研究所研究员 |
Assistant Investigator, National Institute of Biological Sciences, Beijing, China |
|
2015-2019年 |
哈佛医学院博士后 |
Postdoctoral Research Fellow, Harvard Medical School, Boston, USA |
|
2013-2015年 |
北京生命科学研究所博士后 Postdoctoral Research Fellow, National Institute of Biological Science (NIBS), Beijing, China |
研究概述 Research Description
膜蛋白在人体生理活动中扮演着非常重要的角色,是大部分临床药物的作用靶点。膜受体如G蛋白偶联受体可以将细胞外信号传递到细胞内,而膜转运蛋白可以介导离子或者分子的跨膜运输。我们实验室希望通过生物化学方法以及X射线晶体学、电子显微镜和核磁共振等结构手段研究膜受体信号转导的分子机制以及膜转运蛋白跨膜运输的分子机制。我们的长远目标是研发靶向膜蛋白的新型治疗药物。
Membrane proteins play important roles in virtually every aspect of human physiology and are targets of most modern medicinal drugs. Membrane receptors such as G protein-coupled receptors mediate cellular responses to a variety of extracellular signals and membrane transporters can move ions and molecules across the impermeable membrane. My lab aims to understand the molecular mechanism of membrane receptor signaling and membrane transport through biochemical and structural approaches including X-ray crystallography, electron microscopy and NMR, with a long-term goal to develop novel therapeutics targeting membrane proteins.
代表文章 Representative Publications (#共同一作,*通讯作者)
1. Nie Y#, Qiu Z#, Chen Z, Song X, Ma Y, Cyster JG, Zheng S* (2023). Specific binding of GPR174 by endogenous lysophosphatidylserine leads to high constitutive Gs signaling. Nature Communications 14 (1).
2. Jiang W#, Wang W#, Kong Y, Zheng S* (2023). Structural basis for the ubiquitination of G protein βγ subunits by KCTD5/Cullin3 E3 ligase. Science Advances 9 (28).
3. Yang J, Chen P, Cao Y, Liu S, Wang W, Li L, Li J, Jiang Z, Ma Y, Chen S, Zheng S, Qi X*, Jiang H*(2023). Chemical inhibition of mitochondrial fission via targeting the DRP1-receptor interaction. Cell Chemical Biology 30 (3).
4. Wang Q#, Meng F#, Xie Y, Wang W, Meng Y, Li L, Liu T, Qi J, Ni X, Zheng S, Huang J*, Huang N*(2023). In Silico Discovery of Small Molecule Modulators Targeting the Achilles’ Heel of SARS-CoV-2 Spike Protein. ACS central science 9 (2).
5. Chen S, Teng X, Zheng S* (2023). Molecular basis for the selective G protein signaling of somatostatin receptors. Nature Chemical Biology 19 (2): 133-140.
6. Li Y#, Liu J#, Chen W#, Wang W, Yang F, Liu X, Sheng Y, Du K, He M, Lyu X, Li H, Zhao L, Wei Z, Wang F, Zheng S, Sui J*(2023). A pH-dependent anti-CD47 antibody that selectively targets solid tumors and improves therapeutic efficacy and safety. Journal of Hematology & Oncology 16 (1).
7. Jiang W, Zheng S* (2022). Structural insights into the galanin receptors signaling. Proc. Natl. Acad. Sci. U.S.A 119 (21).
8. Teng X#, Chen S#, Wang Q, Chen Z, Wang X, Huang N, Zheng S* (2022). Structural insights into G protein activation by D1 dopamine receptor. Science Advances 8 (23)
9. Teng X, Chen S, Nie Y, Zheng S* (2022). Ligand recognition and biased agonism of the D1 dopamine receptor. Nature communications 13 (1), 1-11.
10. Ma J#, Su D#, Sun Y, Huang X, Liang Y, Fang L, Ma Y, Li W, Liang P*, Zheng S* (2021). Cryo-electron microscopy structure of S-trimer, a subunit vaccine candidate for COVID-19. Journal of Virology 95 (11).
11. Pascolutti R, Erlandson SC, Burri DJ, Zheng S, Kruse AC* (2020). Mapping and engineering the interaction between adiponectin and T-cadherin. J Bio Chem 295 (9), 2749-2759
12. Sjodt M, Rohs PD, Gilman MS, Erlandson SC, Zheng S, Green AG, Brock KP, Taguchi A, Kahne D, Walker S, Marks D, Rudner DZ, Bernhardt TG, Kruse AC* (2020). Structural coordination of polymerization and crosslinking by a SEDS-bPBP peptidoglycan synthase complex. Nature Microbiology 5 (6), 813-820
13. Liu H, Zheng S, Hou X, Liu X, Du K, Lv X, Li Y, Yang F, Li W, Sui J* (2020). Novel Abs targeting the N-terminus of fibroblast growth factor 19 inhibit hepatocellular carcinoma growth without bile-acid-related side-effects. Cancer science 111 (5), 1750-1760
14. Zheng S, Abreu N, Levitz J, Kruse AC* (2019). Structural basis for KCTD-mediated rapid desensitization of GABAB signaling. Nature 567: (127-131).
15. Zheng S, Sham LT, Rubino FA, Brock KP, Robins WP, Mekalanos JJ, Marks DS, Bernhardt TG, Kruse AC*. (2018) Structural and mutagenic analysis of the lipid II flippase MurJ from Escherichia coli. Proc. Natl. Acad. Sci. U.S.A 115 (26): 6709-6714
16. Sham LT, Zheng S, Yakhnina AA, Kruse AC, Berhardt TG*. (2018) Loss of specificity variants of WzxC suggest that substrate recognition is coupled with transporter opening in MOP-family flippase. Mol Microbiol 109 (5): 633-641
17. Huang P#, Zheng S#, Wierbowski BM, Kim Y, Nedelcu D, Aravena L, Liu J, Kruse AC., Salic A*. (2018) The structural basis of smoothened activation in Hedgehog signaling. Cell 174: 1-13
18. MaMahon C, Baier AS, Pascolutti R, Wegrecki M, Zheng S, Ong JX, Erlandson SC, Hilger D, Rasmussen SGF, Ring AM, Manglik A*, Kruse AC*. (2018) Yeast surface display platform for rapid discovery of conformationally selective nanobodies. Nature Structural & Molecular Biology 25: 289-296
19. Zhou D#, Zhu X#, Zheng S, Tan D, Dong MQ, Ye K*. (2018) Cryo-EM structure of an early precursor of large ribosomal subunit reveals a half-assembled intermediate. Protein Cell 10 (2): 120-130
20. Sun Q#, Zhu X#, Qi J#, An W#, Lan P, Tan D, Chen R, Wang B, Zheng S, Zhang C, Chen X, Zhang W, Chen J, Dong M, Ye K*. (2017) Molecular architecture of the 90S small subunit pre-ribosome. eLife 6: e2208
21. Li D, He W, Liu X, Zheng S, Qi Y, Li H, Mao F, Liu J, Sun Y, Pan L, Du K, Ye K, Li W*, Sui J*. (2017) A potent human neutralizing antibody Fc-dependently reduces established HBV infections. eLife 6: e26738
22. Schmidt HR#, Zheng S#, Gurpinar E, Koehl A, Manglik A., Kruse AC*. (2016) Crystal structure of human sigma1 receptor. Nature 532: 527-530
23. Shen M#, Zhang N#, Zheng S#, Zhang W, Zhang H, Lu Z, Su Q, Sun Y, Ye K, Li X*. (2016) Calmodulin in complex with the first IQ motif of myosin-5a functions as an intact calcium sensor. Proc. Natl. Acad. Sci. U.S.A 113 (40)
24. Zheng S#, Lan P#, Liu X, Ye K*. (2014) Interaction between Ribosome Assembly Factors Krr1 and Faf1 Is Essential for Formation of Small Ribosomal Subunit in Yeast. J Bio Chem 289: 22692-703
25. Zheng S, Villa R, Wang J, Feng Y, Wang J, Becker PB, and Ye K*. (2014) Structural basis of X chromosome DNA recognition by MSL2 CXC domain during dosage compensation in Drosophila. Genes & Development 28: 2652-2662
26. Zheng S#, Wang J#, Feng Y#*, Wang J, Ye K*. (2012) Solution structure of MSL2 CXC domain reveals an unusual Zn3Cys9 cluster and similarity to pre-SET domains of histone lysine methyltransferases. PloS One 7: e45437
Invited reviews and comments
1. Zheng S, Kruse AC*. (2019) Ion Channels: Solving a specificity mystery. eLife
2. Alon A#, Schmidt H#, Zheng S#, Kruse AC*. (2017) Structure perspectives on Sigma-1 receptor function. Adv Exp Med Biol. 964:5-13