1. Ye Y.#,Du L.#, Zhang X., Newmister S.A.,McCauley M., Alegre-Requena J.V.,Zhang W., Mu S., Minami A.,Fraley A.E.,Adrover-Castellano M.L.,Carney N.A., Shende V.V.,Qi F.,Oikawa H.,Kato H., Tsukamoto S., Paton R.S.,Williams R.M.*, Sherman D.H.*, and Li S.* Fungal-derived brevianamide assembly by a stereoselective semipinacolase.Nature Catalysis, 2020, 3: 497-506.(IF: 40.706)
2. Zhang W.#,Du L.#, Li F., Zhang X., Qu Z., Han L., Li Z., Sun J., Qi F., Yao Q., Sun Y., Geng C., and Li S.* Mechanistic insights into interactions between bacterial class I P450 enzymes and redox partners.ACS Catalysis, 2018, 8: 9992-10003. (IF: 13.700)
3. Du L.#, Dong S.#, Zhang X., Jiang C., Chen J., Yao L., Wang X., Wan X., Liu X., Wang X., Huang S., Cui Q., Feng Y.*, Liu S.-J.*, and Li S.* Selective oxidation of aliphatic C-H bonds in alkylphenols by a chemomimetic biocatalytic system.PNAS, 2017, 114: E5129-E5137.(IF: 12.779)
4. Du L., Li S.* Compartmentalized biosynthesis of fungal natural products.Current Opinion in Biotechnology, 2021, 69: 128-135. (IF: 10.279)
5. Dong S.#, Chen J.#, Zhang X., Guo F., Ma L., You C., Wang X., Zhang W., Wan X., Liu S.-J., Yao L.-S., Li S.,Du L.*, and Feng Y.* Structural basis forselective oxidation of phosphorylated ethylphenolsby cytochrome P450 monooxygenase CreJ.Applied and Environmental Microbiology, 2021, 87: e00018-21. (IF: 5.005)
6. Du L., Ma L., Qi F., Zheng X., Jiang C., Li A., Wan X., Liu S.-J.*, and Li S.* Characterization of a unique pathway for 4-cresol catabolism initiated by phosphorylation inCorynebacterium glutamicum.Journal of Biological Chemistry, 2016, 291: 6583-6594. (IF: 5.486)
7. Du L., Liu R.-H., Ying L., and Zhao G.-R.* An efficient intergeneric conjugation of DNA fromEscherichia coli to mycelia of the lincomycin-producerStreptomyces lincolnensis.International Journal of Molecular Sciences, 2012, 13: 4797-4806. (IF: 6.208)
8. Li S.*,Du L., and Bernhardt R.* Redox Partners: Function modulators of bacterial P450 enzymes.Trends in Microbiology, 2020, 28: 445-454. (IF: 18.230)
9. Li, Z., Li, S.,Du, L., Zhang, X., Jiang, Y., Liu, W., Zhang, W., and Li, S. Engineering bafilomycin high-producers by manipulating regulatory and biosynthetic genes in the marine bacteriumStreptomyces lohii.Marine Drugs, 2021, 19: 29. (IF: 5.118)
10. Fraley A.E., Tran H.T., Kelly S.P., Newmister S.A., Tripathi A., Kato H., Tsukamoto S.,Du L., Li S., Williams R.M.*, and Sherman D.H.* Flavin-dependent monooxygenases NotI and NotI’ mediate spiro-oxindole formation in biosynthesis of the notoamides.ChemBioChem, 2020, 21: 2382-2382. (IF: 3.146)
11. Zhang W.,Du L., Qu Z., Zhang X., Li F., Li Z., Qi F., Wang X., Jiang Y., Men P., Sun J., Cao S., Geng C., Qi F., Wan X., Liu C., and Li S.* Compartmentalized biosynthesis of mycophenolic acid. Proceedings of the National Academy of Sciences of the United States of America, 2019, 116: 13305-13310.(IF: 11.205)
12. Xu H., Liang W., Ning L., Jiang Y., Yang W., Wang C., Qi F., Ma L.,Du L., Fourage L., Zhou Y.J., and Li S.* Directed evolution of P450 fatty acid decarboxylases via high-throughput screening towards improved catalytic activity.ChemCatChem, 2019, 6. (IF: 5.686)
13. Li Z.,Du L., Zhang W., Zhang X., Jiang Y., Liu K., Men P., Xu H., Fortman J. L., Sherman D. H., Yu B., Gao S., and Li S.* Complete elucidation of the late steps of bafilomycin biosynthesis inStreptomyces lohii.Journal of Biological Chemistry, 2017, 292: 7095-7104. (IF: 5.157)
14. Sun Y., Ma L., Han D.,Du L., Qi F., Zhang W., Sun J., Huang S., Kim E.-S., and Li S.* In vitro reconstitution of the cyclosporine specific P450 hydroxylases using heterologous redox partner proteins.Journal of Industrial Microbiology and Biotechnology, 2017, 44: 161-166. (IF: 3.346)
15. Zhang X., Li Z.,Du L., Chlipala G. E., Lopez P. C., Zhang W., Sherman D. H.*, and Li S.* Identification of an unexpected shunt pathway product provides new insights into tirandamycin biosynthesis.Tetrahedron Letters, 2016, 57: 5919-5923. (IF: 2.415)
16. Ma L.,Du L., Chen H., Sun Y., Huang S., Zheng X., Kim E.-S.*, and Li S.* Reconstitution of thein vitro activity of the cyclosporine-specific P450 hydroxylase fromSebekia benihana and development of a heterologous whole-cell biotransformation system.Applied and Environmental Microbiology, 2015, 81: 6268-6275. (IF: 4.792)
17. Pang A.,Du L., Lin C., Qiao J., and Zhao G.-R.* Co-overexpression oflmbW andmetK led to increased lincomycin A production and decreased byproduct lincomycin B content in an industrial strain ofStreptomyces lincolnensis. Journal of Applied Microbiology, 2015, 119: 1064-1074. (IF: 3.772)
18. Yan J.*, Zheng X.,Du L., and Li S.* Integrated lipase production and in situ biodiesel synthesis in a recombinantPichia pastoris yeast: an efficient dual biocatalytic system composed of cell free enzymes and whole cell catalysts.Biotechnology for Biofuels, 2014, 7: 55. (IF: 6.04)
19. 钟贝芬,杜磊,李众,张伟,张兴旺,李菁,黄淑兰,胡翔,李盛英,刘琨。基于细胞色素P450单加氧酶介导的4-甲酚氧化降解途径的天麻素生物合成。湖南师范大学自然科学学报,2018, 41: 33-40.
20. 赵广荣*,杜磊,祝琳琪。组合突变提高重组人干扰素α2b的抗病毒活性。生物医学工程学杂志,2011, 28: 347-351.
获奖情况
1. 2019年ICMS国际代谢科学大会最佳poster奖
2. 2019年第四届放线菌生物学研讨会最佳poster奖