Professor | Dongyun Shi | Asia Growth Partners

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Name	Dongyun Shi
Contact Information	ndyshi@fudan.edu.cn
Language ability	Chinese, English
Province	Shanghai

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Name

Dongyun Shi

Contact Information

ndyshi@fudan.edu.cn

Language ability

Chinese, English

Province

Shanghai

University/Lab Affiliation and Title	Fudan University
Faculty	Basic Medical Sciences
Academic Background & Achievements	1987.9-1991.7 Bachelor's in Chemistry: Fudan University 1998.9-2002.7 Master's in Biochemistry and Molecular Biology: Fudan University 2003.9-2007.7 PhD: King's College, University of London
Work Experience	2009-present - Fudan University, School of Basic Medical Sciences - Associate Professor, Professor 1997-2003 - Fudan University, Shanghai Medical College - Lecturer 1991-1996 - Shanghai Second Medical University, School of Basic Medical Sciences - Assistant Lecturer, Lecturer
Awards	2010: Second Prize in Natural Science by the Ministry of Education 2019: Excellent Mentor Award by Shanghai Municipal Education Commission 2020: Excellence Award in the Outstanding Reward Program by Fudan University, School of Basic Medical Sciences

University/Lab Affiliation and Title

Fudan University

Faculty

Basic Medical Sciences

Academic Background & Achievements

1987.9-1991.7 Bachelor's in Chemistry: Fudan University
1998.9-2002.7 Master's in Biochemistry and Molecular Biology: Fudan University
2003.9-2007.7 PhD: King's College, University of London

Work Experience

2009-present - Fudan University, School of Basic Medical Sciences - Associate Professor, Professor
1997-2003 - Fudan University, Shanghai Medical College - Lecturer
1991-1996 - Shanghai Second Medical University, School of Basic Medical Sciences - Assistant Lecturer, Lecturer

Awards

2010: Second Prize in Natural Science by the Ministry of Education
2019: Excellent Mentor Award by Shanghai Municipal Education Commission
2020: Excellence Award in the Outstanding Reward Program by Fudan University, School of Basic Medical Sciences

Areas of Focus	Research on metabolic regulation and targeted intervention in the stress microenvironment of tumors and diabetes Research on hypoxia protection mechanisms and interventions Scientific definition and precise intervention strategies for redox balance in major diseases
Publications	Compartmentally scavenging hepatic oxidants through AMPK/ SIRT3-PGC1α axis improves mitochondrial biogenesis and glucose catabolism, Meiling Wu, Chunwang Zhang, Mengdan Xie, Yuansheng Zhen, Ben Lai, Jiankang Liu, Liang Qiao, Shanlin Liu, Dongyun Shi, 2021 Liver-targeted Nano-MitoPBN normalizes glucose metabolism through improving mitochondrial redox balance, Meiling Wu, Lihao Liao, Lihan Jiang, Chunwang Zhang, Hongyang Gao, Liang Qiao, Shanlin Liu, Dongyun Shi, 2019 NAC selectively inhibit cancer telomerase activity: A higher redox homeostasis threshold exists in cancer cells, Pengying Li, Meilin Wu, Jing Wang, Yilun Sui, Shanlin Liu, Dongyun Shi, 2016 Glutaredoxins concomitant with optimal ROS activate AMPK through S-glutathionylation to improve glucose metabolism in type 2 diabetes, Kelei Dong, Meiling Wu, Xiaomin Liu, Dongyang Zhang, Yanjie Huang, Yiting Wang, Liang-Jun Yan, Dongyun Shi, 2016 Redox homeostasis protects mitochondria through accelerating ROS conversion to enhance hypoxia resistance in cancer cells, Li P, Zhang D, Shen L, Dong K, Wu M, Ou Z, Shi D, 2016

Areas of Focus

Research on metabolic regulation and targeted intervention in the stress microenvironment of tumors and diabetes
Research on hypoxia protection mechanisms and interventions
Scientific definition and precise intervention strategies for redox balance in major diseases

Publications

Compartmentally scavenging hepatic oxidants through AMPK/ SIRT3-PGC1α axis improves mitochondrial biogenesis and glucose catabolism, Meiling Wu, Chunwang Zhang, Mengdan Xie, Yuansheng Zhen, Ben Lai, Jiankang Liu, Liang Qiao, Shanlin Liu, Dongyun Shi, 2021
Liver-targeted Nano-MitoPBN normalizes glucose metabolism through improving mitochondrial redox balance, Meiling Wu, Lihao Liao, Lihan Jiang, Chunwang Zhang, Hongyang Gao, Liang Qiao, Shanlin Liu, Dongyun Shi, 2019
NAC selectively inhibit cancer telomerase activity: A higher redox homeostasis threshold exists in cancer cells, Pengying Li, Meilin Wu, Jing Wang, Yilun Sui, Shanlin Liu, Dongyun Shi, 2016
Glutaredoxins concomitant with optimal ROS activate AMPK through S-glutathionylation to improve glucose metabolism in type 2 diabetes, Kelei Dong, Meiling Wu, Xiaomin Liu, Dongyang Zhang, Yanjie Huang, Yiting Wang, Liang-Jun Yan, Dongyun Shi, 2016
Redox homeostasis protects mitochondria through accelerating ROS conversion to enhance hypoxia resistance in cancer cells, Li P, Zhang D, Shen L, Dong K, Wu M, Ou Z, Shi D, 2016

Metabolic Regulation Targeted Intervention Stress Microenvironment Tumors Diabetes Hypoxia Protection Redox Balance Major Diseases Precise Intervention Scientific Definition

Hongyang Gao - Fudan University

Xuemai Tong - Shanghai Jiao Tong University

Changdong Wang - Chongqing Medical University

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