唐啸宇,深圳湾实验室特聘研究员,中山大学药学院(深圳)兼职博士生导师。广东省“珠江人才计划”引进高层次青年人才,深圳市海外高层次人才,第十二届中国生物物理学会肠道菌群分会委员,深圳市微生物组学会(筹)发起人,深圳市生物医药促进会药理研究与转化应用专业委员会常务委,国家重点研发计划答辩评审专家,美国微生物学会《Microbiology Spectrum》杂志编辑和《Chinese Journal of Natural Medicines》青年编委。课题组结合化学、基因组学、合成生物学手段探究微生物代谢产物介导的生物互作,从基因和分子水平解析和调控生命的互作活动,为活菌药物、微生物组药物、和“新一代”小分子药物的开发奠定基础,已在Natl. Sci. Rev.、Nat. Chem. Biol.(两篇)、Nat. Commun.、Nat. Prod. Rep.、Microbiome、Angew. Chem., Int. Ed.和PNAS等专业期刊发表36篇文章,申请专利2项,曾获得欧洲PHOENIX Pharmaceutical Science Award。
本课题组长期招收博士后、联合培养研究所和实习学生,联系地址:xtang@szbl.ac.cn
个人经历
教育背景
2002.09-2006.07:中国药科大学本科
2006.09-2009.11:南京工业大学/斯图加特大学硕士
2009.12-2013.08:德国图宾根大学药学博士
工作背景
2013.11-2018.08:SIO/JCVI, 加州大学圣地亚哥分校博士后
2018.09-2020.05:Ginkgo Bioworks(全球最大合成生物学公司)研究员
2020.09-至今:深圳湾实验室化学生物学研究所研究员
科研项目
1.膜海鞘素类天然药物的异源生产和改造(82173719),国家自然基金面上项目,2022- 2025年,主持
2.人体微生物天然产物(2021QN02Y855),广东省“珠江人才计划”青年人才引进,2022-12-01至2025-11-30,主持,在研
3.海洋微生物药源分子的挖掘、生物合成及其成药性评价(SZBL2021080601006),广东省实验室开放项目,2021- 2024年,共同主持
4.Natural Product Genome Mining(GM857770),美国国立卫生研究院/NIGMS R01,2009- 2021年,参与
5.Targeted Discovery of Antibiotics from Cave Bacteria(AI117712),美国国立卫生研究院/NIAID R01,2016- 2020年,参与
6.Investigation of the Uridyl Peptide Antibiotics Napsamycins Biosynthesis,德国精英大学计划: “Bridging Funds” 基金,2013年,主持
7.耐有机溶剂甾体羟化工程菌的构建于其双相甾体催化(BK2006178),江苏省自然科学基金,2006-2009年,参与
8.新型耐有机溶剂蛋白酶的高通量筛选与改造技术(2006AA02Z202),国家863计划项目,2006-2008年,参与
代表论著
1.Y. Zhang#, G. Liao#, M. Wang#, Z. Zhang#, L. Liu, Y. Song, D. Wang, T. Hao, J. Feng, B. Xia, Y. Wang, X. Tang*, Y. Chen*. Human-associated bacteria adopt an unusual route for synthesizing 3-acetylated tetramates for environmental adaptation. Microbiome, 2023,11, 97
2.G. Liao, C. Mi, L. Yang, H. Zhang, X. Ding, M. Cai, H. Wang, W. Mei*, H. Dai*, X. Tang*. Para-quinone methide-mediated nonenzymatic formation of chalcane-containing dimers in dragon’s blood. Organic Letters2022, 24(50): 9275–9280.
3.H. Zhang, G. Liao, X. Luo*, X. Tang*. Harnessing nature’s biosynthetic capacity to facilitate total synthesis.National Science Review2022, 9(10): nwac178.
4.G. Liao, X. Tang*. Mining the microbial chemistry behind tooth decay. Biochemistry2022, 61(24): 2779–2781.
5.L. Hou, H. Tian, L. Wang, Z. E. Ferris, J. Wang, M. Cai, E. A. Older, M. R. K. Raja, D. Xue, W. Sun, P. Nagarkatti, M. Nagarkatti, H. Chen, D. Fan, X. Tang*, J. Li*. Identification and biosynthesis of pro-inflammatory sulfonolipids from an opportunistic pathogen Chryseobacterium gleum. ACS Chemical Biology2022, 17(5): 1197–1206.
6.M. Cai, S. Kandalai, X. Tang*, Q. Zheng*. Contributions of human-associated archaeal metabolites to tumor microenvironment and carcinogenesis. Microbiology Spectrum2022, 10(2): e02367-21.
7.X. Tang, Y. Kudo, J. Baker, S. LaBonte, P. A. Jordan, S. M. K. Mckinnie, J. Guo, T. Huan, B. S. Moore*, A. Edlund*. Cariogenic Streptococcus mutans produces strain-specific antibiotics that impair commensal colonization. ACS Infectious Diseases2020, 6(4), 563-571.
8.J. J. Zhang, X. Tang, T. Huan, A. C. Ross, B. S. Moore*. Pass-back chain extension expands multi-modular assembly line biosynthesis. Nature Chemical Biology2020, 16: 42–49.
9.J. J. Zhang, K. Yamanaka, X. Tang*, B. S. Moore*. Direct cloning and heterologous expression of natural product biosynthetic gene clusters by transformation-associated recombination. Methods in Enzymology2019, 621: 87-110.
10.J. J. Zhang, B. S. Moore*, X. Tang*. Engineering Salinispora tropica for heterologous expression of natural product biosynthetic gene clusters. Applied Microbiology and Biotechnology2018, 102(10): 8437-8446.
11.J. Li#, X. Tang#, T. Awakawa, and B. S. Moore*. Enzymatic C-H oxidation–amidation cascade in the production of natural and unnatural thiotetronate antibiotics with potentiated bioactivity. Angew. Chem. Int. Ed.2017, 56 (40): 12234–12239.
12.X. Tang, J. Li, and B. S. Moore*. Minimization of the thiolactomycin biosynthetic pathway reveals that the cytochrome P450 enzyme TlmF is required for five-membered thiolactone ring formation. ChemBioChem2017, 18(12):1072-1076.
13.X. Tang, J. Li, N. Millán-Aguiñaga, J.J. Zhang, E.C. O'Neill, J.A. Ugalde, P.R. Jensen, S.M. Mantovani*, and B.S. Moore*. Identification of thiotetronic acid antibiotic biosynthetic pathways by target-directed genome mining. ACS Chemical Biology 2015, 10(12): 2841-2849.
14.X. Tang, K. Eitel, L. Kaysser, A. Kulik, S. Grond, and B. Gust*. A two-step sulfation in antibiotic biosynthesis requires a type III polyketide synthase. Nature Chemical Biology2013, 9: 610–615.
15.X. Tang, M. Goss, Y. Xie, A. Kulik and B. Gust*. Identification of mureidomycin analogues and functional analysis of an N-acetyltransferase in napsamycin biosynthesis. ChemBioChem2013, 14(17), 2248-55.
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