个人简介
学习经历: 1985.9-1989.6:武汉大学生物系微生物专业 学士 1989.9-1992.6:武汉大学生物系微生物专业 硕士 1992.9-1995.6:中国科学院微生物研究所酶室生物化学专业 博士 主要工作经历与任职情况: 1995.7-1997.9:武汉大学生命科学学院 讲师 1997.10-2003.10:武汉大学生命科学学院 副教授 2000.9-2002.9:日本国立食品研究所酶室 博士后 2003.10-现在:武汉大学生命科学学院教授、博士生导师 2003-2006:生物技术系副主任 2006-2015:微生物系主任 2010-现在:生科院副院长
研究领域
极端(嗜热、嗜盐等)微生物酶结构与功能、适应机理及定向分子进化; 极端古菌蛋白质组及其噬菌体分子遗传学; 微生物基因及酶资源开发和应用。
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
1.Zhu F,Yang X, Wu Y, Wang Y, Tang XF, Tang B* (2017) Release of an HtrA-likeprotease from the cell surface of thermophilic Brevibacillus sp.WF146 via substrate-induced autoprocessing of the N-terminal membrane anchor.Front Microbiol 8:481. doi: 10.3389/fmicb.2017.00481. 2. Gao X,Zeng J, Yi H, Zhang F, Tang B*, Tang XF* (2017) Four inserts within thecatalytic domain confer extra stability and activity to hyperthermostablepyrolysin from Pyrococcus furiosus. Appl Environ Microbiol 83(5).pii:e03228-16. 3. Liu F,Zhao ZS, Ren Y, Cheng G, Tang XF, Tang B* (2016) Autocatalytic activationof a thermostable glutamyl endopeptidase capable of hydrolyzing proteins athigh temperatures. Appl Microbiol Biotechnol 100(24):10429-10441. 4. Tang W,Wu Y, Li M, Wang J, Mei S, Tang B*, Tang XF* (2016) Alternativetranslation initiation of a haloarchaeal serine protease transcript containingtwo in-frame start codons. J Bacteriol 198(13):1892-901. (Spotlightarticle) 5. Meng D,Dai M, Xu BL, Zhao ZS, Liang X, Wang M, Tang XF, Tang B* (2016) Maturationof fibrinolytic bacillopeptidase F involves both hetero- and autocatalyticprocesses. Appl Environ Microbiol 82(1):318-27. 6. Xu BL,Dai M, Chen Y, Meng D, Wang Y, Fang N, Tang XF, Tang B* (2015) Improvingthe thermostability and activity of a thermophilic subtilase by incorporatingstructural elements of its psychrophilic counterpart. Appl EnvironMicrobiol 81(18):6302-13. 7. Wang L,Cheng G, Ren Y, Dai Z, Zhao ZS, Liu F, Li S, Wei Y, Xiong J, Tang XF, TangB* (2015) Degradation of intact chicken feathers byThermoactinomyces sp.CDF and characterization of its keratinolytic protease. Appl MicrobiolBiotechnol 99(9): 3949-59. 8. Du X,Li M, Tang W, Zhang Y, Zhang L, Wang J, Li T, Tang B, Tang XF* (2015)Secretion of Tat-dependent halolysin SptA capable of autocatalytic activationand its relation to haloarchaeal growth. Mol Microbiol. 96(3):548-65. 9. ZhangY, Wang M, Du X, Tang W, Zhang L, Li M, Wang J, Tang B, Tang XF* (2014)Chitin accelerates activation of a novel haloarchaeal serine protease thatdeproteinizes chitin-containing biomass. Appl EnvironMicrobiol 80(18):5698-708. 10. ZengJ, Gao X, Dai Z, Tang B, Tang XF* (2014) Effects of metal ions onstability and activity of hyperthermophilic pyrolysin and further stabilizationof this enzyme by modification of a Ca2+-binding site. ApplEnviron Microbiol 80(9):2763-72. 11. FengJ, Wang J, Zhang Y, Du X, Xu Z, Wu Y, Tang W, Li M, Tang B, Tang XF*(2014) Proteomic analysis of the secretome of haloarchaeonNatrinema sp. J7−2. JProteome Res 13(3):1248-58 12. Zhu H,Xu BL, Liang X, Yang YR, Tang XF, Tang B* (2013) Molecular basis for auto-and hetero-catalytic maturation of a thermostable subtilase from thermophilicBacillus sp.WF146. J Biol Chem 288(48):34826-38 13. FengJ, Liu B, Zhang Z, Ren Y, Li Y, Gan F, Huang Y, Chen X, Shen P, WangL, Tang B*, Tang XF* (2012) The complete genome sequenceofNatrinema sp. J7-2, a haloarchaeon capable of growth on synthetic mediawithout amino acid supplements. PLoS ONE 7(7): e41621.doi:10.1371/journal.pone.0041621 14. Dai Z,Fu H, Zhang Y, Zeng J, Tang B, Tang XF* (2012) Insights into thematuration of hyperthermophilic pyrolysin and the roles of its N-terminalpropeptide and long C-terminal extension. Appl EnvironMicrobiol 78(12):4233-4241 15. Xu Z,Du X, Li T, Gan F, Tang B, Tang XF* (2011) Functional insight into theC-terminal extension of halolysin SptA from haloarchaeonNatrinema sp.J7. PLoS ONE 6(8): e23562. doi:10.1371/journal.pone.0023562 16. LiangX, Bian Y, Tang XF, Xiao G, Tang B* (2010) Enhancement of keratinolyticactivity of a thermophilic subtilase by improving its autolysis resistance andthermostability under reducing conditions. Appl MicrobiolBiotechnol. 87(3):999-1006 17. FangN, Zhong CQ, Liang X, Tang XF, Tang B* (2010) Improvement of extracellularproduction of a thermophilic subtilase expressed inEscherichia coli byrandom mutagenesis of its N-terminal propeptide. Appl MicrobiolBiotechnol. 85(5):1473-1481. 18. ZhongCQ, Song S, Fang N, Liang X, Zhu H, Tang XF, Tang B* (2009) Improvement oflow-temperature caseinolytic activity of a thermophilic subtilase by directedevolution and site-directed mutagenesis. BiotechnolBioeng 104(5):862-70.(Spotlight article)