Professor
Liu G. Q†., Zhao Y. L†., He F. Y., Zhang P., Ouyang X. Y., Tang H. Z.*, and Xu P. 2021. Structure-guided insights into heterocyclic ring-cleavage catalysis of the non-heme Fe (II) dioxygenase NicX. Nat. Commun. 12(1301): 1-10.
Zhou Z. K†., Tang H. Z.†*, Wang W. W., Zhang L. G., Su F., Wu Y. T., Bai L. Q., Li S. C., Yuhui Sun Y. H., Tao F., and Xu P*. 2021. A cold shock protein promotes high-temperature microbial growth through binding to diverse RNA species. Cell Discov. 7:1-12.
Tang H. Z.*†, Zhang K. Z†., Hu H. Y†., Wu G†., Wang W. W., Zhu X. Y., Liu G. Q., and Xu P*. 2020. Molecular deceleration regulates toxicant release to prevent cell damage in Pseudomonas putida S16 (DSM 28022). mBio 11(5): e02012-20. 1-12.
Liu G. Q., Wang W. W., He F. Y., Zhang P., Xu P., and Tang H. Z.*. 2020. Structural insights into 6-hydroxypseudooxynicotine amine oxidase from Pseudomonas geniculate N1: the key enzyme involved in nicotine degradation. Appl. Environ. Microbiol. 86(19). e01559-20. 1-13.
Hu H. Y., Wang L. J., Wang W. W., Wu G., Tao F., Xu P., Deng Z. X., and Tang H. Z.*. 2019. Regulatory mechanism of nicotine degradation in Pseudomonas putida. mBio 10(3):1-13.
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.
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.
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