教授
微生物降解多环芳烃、杂环污染物的分子机理研究
环境微生物组学研究
微生物嗜热、嗜盐、嗜酸机理
合成生物学在环境修复中的应用
微生物降解多环芳烃、杂环污染物的分子机理研究
黑臭水体、化工厂废水、污染土壤场地的环境微生物组学研究
微生物嗜热、嗜盐、嗜酸机理
智能微生物降解系统的设计与重构
微生物降解多环芳烃、杂环污染物的分子机理研究
黑臭水体、化工厂废水、污染土壤场地的环境微生物组学研究
微生物嗜热、嗜盐、嗜酸机理
智能微生物降解系统的设计与重构
Wang S. J†., Tang H. Z†., Peng F., Yu X. J., Su H. J*., Xu P*., and Tan T. W. 2019. Metabolite-based mutualism enhances hydrogen production in a two-species microbial consortium. Commun. Biol. 2:82. 1-11.
Zhang S. G., Tao F., Qing R., Tang H. Z., Skuhersky M., Corin K., Tegler L., Wassie A., Wassie B., Kwon Y., Suter B., Entzian C., Schubert T., Yang G., Labahn J., Kubicek J., Maertens B. 2018 (Sep). QTY code enables design of detergent-free chemokine receptors that retain ligand-binding activities. Proc. Natl. Acad. Sci. U. S. A. 115(37):E8652-E8659.
Shah S. B., Ali F., Huang L., Wang W. W., Xu P., Tang H. Z. †*. 2018. Complete genome sequence of Bacillus sp. HBCD-sjtu, an efficient HBCD-degrading bacterium. 3 Biotech 8:291. 1-4.
Liu X., Wang W. W., Hu H. Y., Lu X. Y., Zhang L. G., Xu P., and Tang H. Z.*. 2018. 2-Hydroxy-4-(3′-oxo-3′H-benzofuran-2′-yliden)but-2-enoic acid biosynthesis from dibenzofuran using lateral deoxygenation in a Pseudomonas putida strain B6-2 (DSM 28064). Bioresour. Bioprocess. 5:23. 1-11.
Qu Y. Y.,†* Ma Q.,† Liu Z. Y., Wang W. W., Tang H. Z*., Zhou J. T., and Xu P. 2017. Unveiling the biotransformation mechanism of indole in a Cupriavidus sp. strain. Mol. Microbiol., 106(6):905-918.
Zhang K. Z., Wu G., Tang H. Z*., Hu C. M., Shi T., and Xu P*. 2017. Structural basis for the transcriptional repressor NicR2 in nicotine degradation from Pseudomonas. Mol. Microbiol., 103(1):165-180.
Ma Y. P., Wang X. Y., Nie X. L., Zhang Z., Yang Z. C., Nie C., Tang H. Z*. 2016. Microbial degradation of chlorogenic acid by a Sphingomonas sp. strain. Appl. Biochem. Biotechnol. 179(8):1381–1392.