个人简介
在中国科学技术大学获得博士学位并从事博士后研究。2014年引进入安徽大学生命科学学院工作。主持国家自然科学基金、安徽省自然科学基金等若干项研究项目。以第一或通讯作者在Applied and Environmental Microbiology, Scientific Reports, PLoS ONE, Bioresource Technology等期刊发表学术论文十余篇。
研究领域
(1) 以希瓦氏菌为代表的海洋细菌的环境适应性及相关信号转导的分子机制
(2) 异化金属还原细菌的呼吸作用和电子传递的分子机制及环境应用
近期论文
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1.ChengYY, WuC,WuJY,JiaHL,WangMY,WangHY, ZouSM,SunYY, Jia R, XiaoYZ (2017) FlrA represses transcription of biofilm-associated bpfA operon in Shewanella putrefaciens.Applied and Environmental Microbiology 83(4) e02410-16
2.Li SW, Sheng GP, Cheng YY, Yu HQ (2016) Redox properties of extracellular polymeric substances (EPS) from electroactive bacteria. Scientific Reports 6:39098
3.Yang ZC, Cheng YY, Zhang Feng, Li BB, Mu Yang, Li WW, Yu HQ (2016) Rapid detection and enumeration of exoelectrogenicbacteria in lake sediments and wastewater treatment plant using a cupledWO3nanoclusters and most probable number method. Environmental Science & Technology 3 (4):133-137
4.Xia ZC, Cheng YY, Kong WQ, Shi XY, Yang T, Wang MY, Huang F, Wu Chao*(2016) Electron shuttles alter selenite reduction pathway and redistribute formed Se(0) nanoparticles. Process Biochemistry
5.Li BB, Cheng YY*, Wu Chao W, Li WW, Yang ZC, Yu HQ*(2015) Interaction between ferrihydrite and nitrate respirations by Shewanella oneidensis MR-1. Process Biochemistry 50(11) 1942-1946
6.He YR, Cheng YY, Wang WK, Yu HQ* (2015) A green approach to recover Au(III) in aqueous solution using biologically assembled rGO hydrogels. Chemical Engineering Journal 270: 476-484
7.Wang YP, Yu SS, Zhang HL, Li WW, Cheng YY, Yu HQ* (2015) Roles of 3,3',4',5-tetrachlorosalicylanilide in regulating extracellular electron transfer of Shewanella oneidensis MR-1. Scientific Reports 5:7991.
8.Yuan SJ , Li WW, Cheng YY, He H, Chen JJ, Tong ZH, Lin ZQ, Hang F, Sheng GP, Yu HQ* (2013) A plate-based electrochromic approach for the high-throughput detection of electrochemically active bacteria. Nature Protocols 9:112-119.
9.Li DB#, Cheng YY#, Wu C*, Li WW, Li N, Yang ZC, Tong ZH, Yu HQ* (2014) Selenite reduction by Shewanella oneidensis MR-1 mediated by fumuarate reductase in periplasm. Scientific Reports 4:3735
10.Li DB, Cheng YY, Li LL, Li WW, Huang YX, Pei DN, Tong ZH, Mu Y, Yu HQ* (2014) Light-driven microbial dissimilatory electron transfer to hematite. Physical Chemistry Chemical Physics 16(42): 23003-23011
11.Song XN, Cheng YY*, Li WW, Li BB, Sheng GP, Fang CY, Wang YK, Li XY, Yu HQ (2014) Quorum quenching is responsible for the underestimated quorum sensing effects in biological wastewater treatment reactors. Bioresource Technology 171:472-476
12.Yan FF, He YR, Wu C, Cheng YY*, Li WW, and Yu HQ (2014) CNTs alter electron flow route and enhance nitrobenzene reduction by Shewanella oneidensis MR-1. Environmental Science & Technology Letters 1(1): 128-132
13.Shen N, Yuan SJ, Wu C, Cheng YY*, Song XN, Li WW, Tong ZH, Yu HQ (2014) Rapid isolation of a facultative anaerobic electrochemically active bacterium capable of oxidizing acetate for electrogenesis and azo dyes reduction. Applied Biochemistry and Biotechnology173:461-471
14.Wu C, Cheng YY*, Yin H, Song XN, Li WW, Zhou XX, Zhao LP, Tian LJ, Han JC, Yu HQ* (2013) Oxygen promotes biofilm formation of Shewanella putrefaciens CN32 through a diguanylate cyclase and an adhesin. Scientific Reports 3:1945.
15.Cheng YY, Li BB, Li DB, Chen JJ, Li WW, Tong ZH, Wu C*, Yu HQ* (2013) Promotion of iron oxide reduction and extracellular electron transfer in Shewanella oneidensis by DMSO. PLoS ONE 8(11): e78466.
16.Wu C, Cheng YY*, Li BB Li WW, Li DB, Yu HQ* (2013) Electron acceptor dependence of electron shuttle secretion and extracellular electron transfer by Shewanella oneidensis MR-1. Bioresource Technology 136:711-714
17.Yan FF, Wu C, Cheng YY, He YR, Li WW, Yu HQ* (2013) Carbon nanotubes promote Cr(VI) reduction by alginate-immobilized Shewanella oneidensis MR-1. Biochemical Engineering Journal 77:183-189
18.Yuan SJ, He H, Sheng GP, Chen JJ, Tong ZH, Cheng YY, Li WW, Lin ZQ, Zhang Feng, Yu HQ* (2013) A photometric high-throughput method for identification of electrochemically active bacteria using a WO3 nanocluster probe. Scientific Reports 3: 1315