Professor | 谭在高 | 数字化转型顾问

Name

谭在高

Contact Information

ZTAN0918@sjtu.edu.cn

Language ability

英语, 汉语

Province

上海

University/Lab Affiliation and Title	上海交通大学
Faculty	Life Sciences
Academic Background & Achievements	2008 生物工程学士，山东农业大学 2011 微生物学硕士，山东大学微生物技术国家重点实验室 2014 微生物学博士，中国科学院天津工业生物技术研究所美国爱荷华州立大学化学与生物工程系博士后研究 (2014-2016) 美国莱斯大学化学与生物分子系和生物科学系博士后研究 (2016-2019)
Work Experience	2019 - 至今 - 微生物代谢国家重点实验室课题组长、博士生导师，上海交通大学

University/Lab Affiliation and Title

上海交通大学

Faculty

Life Sciences

Academic Background & Achievements

Work Experience

Areas of Focus	非天然合成途径的创制微生物细胞工厂耐受性改造
Publications	A non-carboxylative route for the efficient synthesis of central metabolite malonyl-CoA and its derived products, 谭在高, 2023 Integration of (S)-2,3-oxidosqualene enables E. coli to become Iron Man E. coli with improved overall tolerance, 谭在高, 2023 Designing artificial pathways for improving chemical production, 谭在高, 2023 A polyketoacyl-CoA thiolase-dependent pathway for the synthesis of polyketide backbones, 谭在高, 2023 The isoprenoid alcohol pathway, a synthetic route for isoprenoid biosynthesis, 谭在高, 2023 Engineering of E. coli inherent fatty acid biosynthesis capacity to increase octanoic acid production, 谭在高, 2023 Synthetic Pathway for the Production of Olivetolic Acid in Escherichia coli, 谭在高, 2023 Engineering Escherichia coli Membrane Phospholipid Head Distribution Improves Tolerance and Production of Biorenewables, 谭在高, 2023 Improving Escherichia coli membrane integrity and fatty acid production by expression tuning of FadL and OmpF, 谭在高, 2023 Membrane Engineering via Trans Unsaturated Fatty Acids Production Improves Escherichia coli Robustness and Production of Biorenewables, 谭在高, 2023

Areas of Focus

非天然合成途径的创制
微生物细胞工厂耐受性改造

Publications

A non-carboxylative route for the efficient synthesis of central metabolite malonyl-CoA and its derived products, 谭在高, 2023
Integration of (S)-2,3-oxidosqualene enables E. coli to become Iron Man E. coli with improved overall tolerance, 谭在高, 2023
Designing artificial pathways for improving chemical production, 谭在高, 2023
A polyketoacyl-CoA thiolase-dependent pathway for the synthesis of polyketide backbones, 谭在高, 2023
The isoprenoid alcohol pathway, a synthetic route for isoprenoid biosynthesis, 谭在高, 2023
Engineering of E. coli inherent fatty acid biosynthesis capacity to increase octanoic acid production, 谭在高, 2023
Synthetic Pathway for the Production of Olivetolic Acid in Escherichia coli, 谭在高, 2023
Engineering Escherichia coli Membrane Phospholipid Head Distribution Improves Tolerance and Production of Biorenewables, 谭在高, 2023
Improving Escherichia coli membrane integrity and fatty acid production by expression tuning of FadL and OmpF, 谭在高, 2023
Membrane Engineering via Trans Unsaturated Fatty Acids Production Improves Escherichia coli Robustness and Production of Biorenewables, 谭在高, 2023

合成生物学代谢工程微生物底盘细胞胁迫因子生物制造生物燃料生物可再生资源细胞膜工程次级代谢产物途径设计

芦银华 - 上海师范大学

邓子新 - 上海交通大学

缪晓玲 - 上海交通大学

Area of Focus
微藻 | 活性物质 | 代谢机制 | 代谢工程 | 合成生物学 | 食品 | 医药 | 能源 | 化妆品 | 生物肥料 | Co2固定 | 光合作用 | 光生物反应器 | 氮 | 磷 | 生物柴油 | 甲烷 | 生物氢气 | 生物酶 | 酶筛选

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