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李健,上海科技大学研究员。2013年9月毕业于德国柏林工业大学(Technischen Universität Berlin),获得自然科学博士学位(Dr. rer. nat.);随后于2013年12月至2017年8月在美国西北大学(Northwestern University)从事博士后研究;2017年9月加入上海科技大学物质科学与技术学院,任助理教授、研究员、博士生导师。2018年获上海市“浦江人才计划(A类)”资助。2018年8月起任Springer Nature出版社《SN Applied Sciences》杂志编委。
李健,助理教授、研究员
通讯地址:物质学院3号楼210-1室
电子邮件:lijian@shanghaitech.edu.cn
研究组主要利用无细胞合成生物学(Cell-free Synthetic Biology)等技术手段开展在蛋白、药物及健康等方面的研究工作。主要研究内容包括:
1. 新型无细胞蛋白合成体系的开发和利用;
2. 无细胞生物合成具有重要工业和药用价值的蛋白质;
3. 天然产物药物(如非核糖体多肽类抗生素)的生物合成、发现与开发;
4. 新型蛋白质生物材料的设计、开发与应用。
发表论文
14. Liu WQ#, Zhang L#, Chen M#, Li J*. Cell-free protein synthesis: Recent advances in bacterial extract sources and expanded applications. Biochemical Engineering Journal, 2019, 141, 182–189
13. Li J*, Zhang L, Liu W. Cell-free synthetic biology for in vitro biosynthesis of pharmaceutical natural products. Synthetic and Systems Biotechnology, 2018, 3, 83–89
12.Wang H, Li J*, Jewett MC*. Development of a Pseudomonas putida cell-free protein synthesis platform for rapid screening of gene regulatory elements. Synthetic Biology, 2018, 3, ysy00
11.Casini A, Chang FY, Eluere R, King A, Young EM, Dudley QM, Karim A, Pratt K, Bristol C, Forget A, Ghodasara A, Warden-Rothman R, Gan R, Cristofaro A, Espah Borujeni A, Ryu MH, Li J, Kwon YC, Wang H, Tatsis E, Rodriguez-Lopez C, O'Connor S, Medema MH, Fischbach M, Jewett MC, Voigt CA, Gordon DB. A pressure test to make 10 molecules in 90 days: external evaluation of methods to engineer biology. Journal of the American Chemical Society, 2018, 140, 4302–4316
10. Li J, Wang H, Jewett MC. Expanding the palette of Streptomyces-based cell-free protein synthesis systems with enhanced yields. Biochemical Engineering Journal, 2018, 130, 29–33
9. Li J, Wang H, Kwon YC, Jewett MC. Establishing a high yielding Streptomyces-based cell-free protein synthesis system. Biotechnology and Bioengineering, 2017, 114, 1343–1353 (Video Highlighted)
8. Goering AW#, Li J#, McClure RA, Thomson RJ, Jewett MC, Kelleher NL. In vitro reconstruction of nonribosomal peptide biosynthesis directly from DNA using cell-free protein synthesis. ACS Synthetic Biology, 2017, 6, 39–44
7. Li J, Lawton TJ, Kostecki JS, Nisthal A, Fang J, Mayo SL, Rosenzweig AC, Jewett MC. Cell-free protein synthesis enables high yielding synthesis of an active multicopper oxidase. Biotechnology Journal, 2016, 11, 212–218 (Front Cover)
6. Moatsou D#, Li J#, Ranji A, Pitto-Barry A, Ntai I, Jewett MC, O’Reilly RK. Self-assembly of temperature-responsive protein-polymer bioconjugates. Bioconjugate Chemistry, 2015, 26, 1890–1899 (Front Cover)
5. Li J*, Jaitzig J, Lu P, Süssmuth RD, Neubauer P. Scale-up bioprocess development for production of the antibiotic valinomycin in Escherichia coli based on consistent fed-batch cultivations. Microbial Cell Factories, 2015, 14, 83
4. Li J*, Jaitzig J, Theuer L, Legala OE, Süssmuth RD, Neubauer P. Type II thioesterase improves heterologous biosynthesis of valinomycin in Escherichia coli. Journal of Biotechnology, 2015, 193, 16–22
3. Li J*, Neubauer P. Escherichia coli as a cell factory for heterologous production of nonribosomal peptides and polyketides. New Biotechnology, 2014, 31, 579–585
2. Li J#, Jaitzig J#, Hillig F, Süssmuth RD, Neubauer P. Enhanced production of the nonribosomal peptide antibiotic valinomycin in Escherichia coli through small-scale high cell density fed-batch cultivation. Applied Microbiology and Biotechnology, 2014, 98, 591–601
1. Jaitzig J#, Li J#, Süssmuth RD, Neubauer P. Reconstituted biosynthesis of the nonribosomal macrolactone antibiotic valinomycin in Escherichia coli. ACS Synthetic Biology, 2014, 3, 432–438
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发表于 2020-1-10 09:02:28
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