【研究方向】微生物发酵工程、生物催化
【办公地点】C101
【联系邮箱】zhoupei.lo@foxmail.com
【教育及工作经历】
2015年毕业于河南大学生物工程专业,获工学学士学位;
2018年毕业于河南大学生物化工专业,获工学硕士学位;
2023年毕业于江南大学发酵工程专业,获工学博士学位;
2023年7月至今在河南大学生命科学学院工作。
【代表性论文】
[1]Pei Zhou, Hui Liu, Xin Meng, Huiyun Zuo, Mengya Qi, Liang Guo, Cong Gao, Wei Song, Jing Wu, Xiulai Chen, Wei Chen, Liming Liu*. Engineered artificial membraneless organelles inSaccharomyces cerevisiaeto enhance chemical production.Angew. Chem. Int. Ed., 2023, 62:e202215778.(一区TOP, 2023IF=16.6)
[2]Pei Zhou, Xiaoke Yu, Hui Liu, Yanli Qi, Xiulai Chena, Liming Liu*.Candida glabrataYap6 recruits Med2 to alter glycerophospholipid composition and develop acid pH stress resistance.Appl. Environ. Microbiol.,2020, 86: e01915-20.(二区TOP, 2023IF=4.4)
[3]Pei Zhou, Yakun Fang, Hua Li, Yupeng Liu*. Efficient biotransformation of phytosterols to dehydroepiandrosterone byMycobacterium sp.Appl.Biochem. Biotechnol.,2018, 186(2):496-506.(三区, 2022IF=3.0)
[4]Hui Liu,Pei Zhou,Mengya Qi, Liang Guo, Cong Gao, Wei Song, Jing Wu, Xiulai Chen, Wei Chen, Liming Liu*.Enhancing biofuels production by engineering the actin cytoskeleton inSaccharomyces cerevisiae.Nat.Commun.,2022, 13: 1886.(一区TOP, 2023IF=16.6)
[5]Guangjie Liang,Pei Zhou, Jiaxin Lu, Hui Liu, Yanli Qi, Cong Gao, Liang Guo, Guipeng Hu, Xiulai Chen, Liming Liu*. Dynamic regulation of membrane integrity to enhance l‐malate stress tolerance inCandida glabrata.Biotechnol.Bioeng., 2021, 118(11): 4347-4359.(二区, 2023IF=3.8)
[6]Rui Yao,Pei Zhou, Chengjin Wu, Liming Liu*, Jing Wu. Sml1 Inhibits the DNA Repair Activity of Rev1 inSaccharomyces cerevisiaeduring Oxidative Stress.Appl. Environ. Microbiol.,2020, 84: e02838-19.(二区TOP, 2023IF=4.4)
[7] Hui Liu, Weijia Yuan,Pei Zhou, Guangjie Liang, Cong Gao, Liang Guo, Guipeng Hu, Wei Song, Jing Wu, Xiulai Chen, Liming Liu*. Engineering membrane asymmetry to increase medium-chain fatty acid tolerance inSaccharomyces cerevisiae.Biotechnol. Bioeng., 2021, 119(1): 277-286. (二区, 2023 IF=3.8)
[8] Hui Liu, Yanli Qi,Pei Zhou, Chao Ye, Cong Gao, Xiulai Chen, Liming Liu*. Microbial physiological engineering increases the efficiency of microbial cell factories.Crit. Rev. Biotechnol., 2021, 41(3):339-354. (二区TOP, 202 IF=9.0)