T师资队伍Teachers
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周贤轩,湖南人,金沙游戏官网,教授。1999年毕业于华中师范大学生命科学学院,获学士学位;2008年毕业于中国科学技术大学生命科学学院,获理学博士学位;2008年12月-2012年10月,留学美国北卡大学教堂山分校药学院(University of North Carolina at Chapel Hill),从事微生物基因工程与多糖药物合成研究;2012年10月,加入集团公司,获聘为教授,黄山青年学者,研究微生物遗传、代谢、及糖胺聚糖合成。担任Metabolic Engineering, Appl Environ Microb,Appl Microbiol Biotechnol,Gene等国内外著名期刊审稿人。主持与参加国家和省部级科研课题及横向开发项目10余项,在国内外学术期刊发表研究论文30余篇。
我们的研究以微生物合成糖胺聚糖为核心,涉及酶合成、有机合成、微生物遗传机理、基因工程改造、发酵工程、代谢产物分析分离纯化、以及其它合成生物学等相关研究领域。
糖胺聚糖类化合物是重要的药物和膳食补充剂,市场份额高达数百亿美元。目前,通过微生物制备非动物源糖胺聚糖类化合物,是研究前沿和研究难点,可以排除源于动物的污染物,易于规模化生产,缩短产业供应链。以细菌荚膜多糖为起始原料,以PAPS为磺基供体,体外合成第二代糖胺聚糖类化合物,有望完全替代第一代产品,实现原创技术开发与重大产业链升级。
欢迎有理想有追求的年轻学子加入本研究组,一起去探索未知世界,并帮助你实现人生的飞跃。
主要成就与社会影响
1.经过多年积累,我们已经建立了大规模合成并纯化多糖碳链骨架及磺基供体分子PAPS的方法,克服了微生物合成肝素、硫酸软骨素等糖胺聚糖的关键性技术障碍。
2.解析了微生物荚膜多糖的基因表达调控机制,对合成菌株进行了大范围的基因工程改造,构建了稳定及高产的多糖合成菌株。
获奖情况
“黄山青年学者”特聘教授奖励计划
1. 合成硫酸软骨素研究(W2021JSKF0024),主持
2. 国家自然科学基金面上项目(31670120) ,主持
3. 中国科学院慢性疾病重点实验室项目(KLIICD-201503) ,主持
4. 校企联合技术开发项目(113-433102) ,主持
5. 集团公司人才引进启动基金(407-037064) ,主持
1. Li, X., Yu, Y., Tang, J., Gong, B., Li, W., Chen, T., and Zhou, X. (2021) The construction of a dual-functional strain that produces both polysaccharides and sulfotransferases. Biotechnol Lett 43, 1831-1844
2. Wu, D., Li, X., Yu, Y., Gong, B., and Zhou, X. (2021) Heparin stimulates biofilm formation of Escherichia coli strain Nissle 1917. Biotechnol Lett 43, 235-246
3. Shi, H., Tang, J., An, C., Yang, L., and Zhou, X. (2021) Protein A of Staphylococcus aureus strain NCTC8325 interacted with heparin. Arch Microbiol 203, 2563-2573
4. Yu, Y., Ye, H., Wu, D., Shi, H., and Zhou, X. (2019) Chemoenzymatic quantification for monitoring unpurified polysaccharide in rich medium. Appl Microbiol Biotechnol 103, 7635-7645
5. Gu, X., Han, M., Du, Y., Wu, Y., Xu, Y., Zhou, X., Ye, D., and Wang, H.-L. (2019) Pb disrupts autophagic flux through inhibiting the formation and activity of lysosomes in neural cells. Toxicology in Vitro 55, 43-50
6. An, C., Zhao, L., Wei, Z., and Zhou, X. (2017) Chemoenzymatic synthesis of 3′-phosphoadenosine-5′-phosphosulfate coupling with an ATP regeneration system. Applied Microbiology and Biotechnology 101, 7535-7544
7. Yan, H., Bao, F., Zhao, L., Yu, Y., Tang, J., and Zhou, X. (2015) Cyclic AMP (cAMP) receptor protein-cAMP complex regulates heparosan production in Escherichia coli strain Nissle 1917. Applied and environmental microbiology 81, 7687-7696
8. Wang, X., Huang, M., Yang, F., Sun, H., Zhou, X., Guo, Y., Wang, X., and Zhang, M. (2015) Rapeseed polysaccharides as prebiotics on growth and acidifying activity of probiotics in vitro. Carbohydrate Polymers 125, 232-240
9. Bao, F., Yan, H., Sun, H., Yang, P., Liu, G., and Zhou, X. (2015) Hydrolysis of by-product adenosine diphosphate from 3′-phosphoadenosine-5′-phosphosulfate preparation using Nudix hydrolase NudJ. Applied Microbiology and Biotechnology 99, 10771-10778
10. Zhou, X., Li, L., Linhardt, R. J., and Liu, J. (2013) Neutralizing the anticoagulant activity of ultra-low-molecular-weight heparins using N-acetylglucosamine 6-sulfatase. FEBS Journal 280, 2523-2532
11. Wu, C., Cheng, Y.-Y., Yin, H., Song, X.-N., Li, W.-W., Zhou, X.-X., Zhao, L.-P., Tian, L.-J., Han, J.-C., and Yu, H.-Q. (2013) Oxygen promotes biofilm formation of Shewanellaputrefaciens CN32 through a diguanylate cyclase and an adhesin. Sci. Rep. 3
12. Zhou, X., O'Leary, T. R., Xu, Y., Sheng, J., and Liu, J. (2012) Chemoenzymatic synthesis of heparan sulfate and heparin. Biocatal Biotransfor 30, 296-308
13. Zhou, X., Chandarajoti, K., Pham, T. Q., Liu, R., and Liu, J. (2011) Expression of heparan sulfate sulfotransferases in Kluyveromyces lactis and preparation of 3'-phosphoadenosine-5'-phosphosulfate. Glycobiology 21, 771-780
14. Liu, R., Xu, Y., Chen, M., Weiwer, M., Zhou, X., Bridges, A. S., DeAngelis, P. L., Zhang, Q., Linhardt, R. J., and Liu, J. (2010) Chemoenzymatic design of heparan sulfate oligosaccharides. The Journal of biological chemistry 285, 34240-34249
15. Xue, T., Zhao, L., Sun, H., Zhou, X., and Sun, B. (2009) LsrR-binding site recognition and regulatory characteristics in Escherichia coli AI-2 quorum sensing. Cell Res 19, 1258-1268
16. Zhou, X., Meng, X., and Sun, B. (2008) An EAL domain protein and cyclic AMP contribute to the interaction between the two quorum sensing systems in Escherichia coli. Cell Res 18, 937-948
