陈西
邮箱:chenxihit@hit.edu.cn,chenxi.chem@hotmail.com 研究领域:化学生物学&分子生物学 |
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个人简历:
2004-2008:四川大学(学士)
2008-2010:新加坡国立大学(硕士)
2010-2012:【德】乌尔姆大学(博士,High Honors)
2012-2018:【德】马普分子生理所&马普化学基因组学中心(博后)
2018-2019:【美】普林斯顿大学分子生物学院(副研究员/学者)
2019-:哈尔滨工业大学生命科学中心(研究员/博导)
研究兴趣:
本课题组开展以光化学遗传学(chemo-optogenetics)为特色的化学生物学交叉学科的研究。我们发展选择性蛋白质化学修饰方法(A),化学遗传学(chemical genetics)及光化学遗传学等前沿技术(B)并结合其它生物学研究手段来探究与细胞骨架及相关蛋白有关的前沿生命科学问题。我们基于非洲爪蟾无细胞体系技术开展微管分枝成核(branching microtubule nucleation)过程以及纺锤体组装的重建研究,用于研究细胞分裂过程中保障染色体正确无误分离的纺锤体自组装过程,在分子层面探究纺锤体组装的调控机制(C)。基于对相关分子机制的深入理解,并结合实验室蛋白质(抗体)的精确修饰改造技术,期望最终研发一系列蛋白质偶联药物来治疗与基因组稳定性密切相关的疾病,如癌症等。
课题组招聘:
课题组现诚聘博士后2名、技术员2-3名。欢迎有有机化学、蛋白质化学、化学生物学、药物化学、生物化学、分子生物学、细胞免疫治疗(如CAR-T)、噬菌体展示、定向进化、基因编辑、或算法实现(基于MATLAB、Python等)等研究背景,且对交叉学科研究有强烈兴趣的人员申请。关于申请,申请者需将一封封面信及一份个人简历发至实验室PI邮箱:chenxihit@hit.edu.cn。面试通过后,一般还需再提供两位推荐人联系方式及推荐信。该招聘长期有效,直至招满为止。
代表性论文:
[1]X. Chen, M. Venkatachalapathy, L. Dehmelt, Y.-W. Wu*, Multidirectional activity control of cellular processes by a versatile chemo-optogenetic approach (Very Important Paper).Angew. Chem. Int. Ed.2018, 57, 11993-11997
[2]X. Chen, Y.-W. Wu*, Tunable and photoswitchable chemically induced dimerization for chemo-optogenetic control of protein and organelle positioning.Angew. Chem. Int. Ed.2018, 57, 6796-6799
[3]X. Chen#, M. Venkatachalapathy#, D. Kamps, S. Weigel, R. Kumar, M. Orlich, R. Garrecht, M. Hirtz, C. M. Niemeyer, Y.-W. Wu*, Leif Dehmelt*, “Molecular Activity Painting”: Switch-like, light-controlled perturbations inside living cells (Hot Paper/Cover Story;#:co-first author).Angew. Chem. Int. Ed.2017, 56, 5916-5920
[4]X. Chen, F. Li, Y.-W. Wu*, Chemical labeling of intracellular proteins via affinity conjugation and strain-promoted cycloadditions in live cells.Chem. Commun.2015, 51, 16537-16540
[5]W. Liu#, F. Li#,X. Chen#, J. Hou#, L. Yi, Y.-W. Wu*, A rapid and fluorogenic TMP-AcBOPDIPY probe for covalent labeling of proteins in live cells (#:co-first author).J. Am Chem. Soc.2014, 136, 4468-71
[6]X. Chen, F. Li, Y.-W. Wu, Affinity conjugation for rapid and covalent labeling of proteins in live cells (Chapter 15).Methods Mol. Biol.(“Proximity labeling: Methods and protocols”)2019, Vol 2008, 191-202
[7]X. Chen, Y.-W. Wu, Selective chemical labeling of proteins.Org. Biomol. Chem.2016, 14, 5417-5439
[8]X. Chen, L. Henschke, Q. Wu, B. Neumann, K. Muthoosamy, T. Weil, Site-selective azide incorporation into endogenous RNase A via a chemistry approach.Org. Biomol. Chem.2013, 11, 353-61
[9]X. Chen, K. Muthoosamy, A. Pfisterer, B. Neumann, T. Weil, Site-selective lysine modification of native proteins and peptidesviakinetically controlled labeling.Bioconjugate Chem. 2012, 23, 500-508
[10]X. Chen, Q. Wu, L. Henschke, G. Weber, T. Weil, An efficient and versatile approach for the preparation of a rhodamine B ester bioprobe library.Dyes Pigm.2012, 94, 296-3038
[11]X. Chen, A. Pfisterer, K. Müllen, T. Weil, Site-directed protein and peptide chemistryviatailored bioorthogonal reagents.Abstr. Pap. Am. Chem. Soc.2011, 241, 681-ORGN
专著(章节)
[12]X. Chen, S. Voss, Y.-W. Wu, Chemoselective modification of proteins (Chapter 8)
Wiley-VCH(“Chemical ligation: Tools for biomolecule synthesis and modification”)2017, 285-338.
欧洲发明专利&国际发明专利
[13]Y.-W. Wu,X. Chen, Photo-switchable chemical inducers of dimerization for control of protein functions in cells by light
asEuropean Patent: Patent No. EP3424922A1, published on January 9th, 2019
asPCT Patent: Patent No. WO2019008175, published on January 10th, 2019