Professor | Hua Yuan | Asia Growth Partners

Name	Hua Yuan
Contact Information	huayuan@shnu.edu.cn
Language ability	Chinese, English
Province	Shanghai

Name

Hua Yuan

Contact Information

huayuan@shnu.edu.cn

Language ability

Chinese, English

Province

Shanghai

University/Lab Affiliation and Title	Shanghai Normal University
Faculty	Life Sciences
Academic Background & Achievements	2008-2012 PhD: Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences 2005-2008 Master's: Anhui University
Work Experience	2019.12-present, Shanghai Normal University, Researcher 2014.5-2019.11, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Associate Researcher 2014.3-2014.5, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Assistant Researcher 2012.3-2014.3, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Postdoctoral Researcher

University/Lab Affiliation and Title

Shanghai Normal University

Faculty

Life Sciences

Academic Background & Achievements

2008-2012 PhD: Shanghai Institute of Plant Physiology and Ecology, Chinese Academy of Sciences
2005-2008 Master's: Anhui University

Work Experience

2019.12-present, Shanghai Normal University, Researcher
2014.5-2019.11, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Associate Researcher
2014.3-2014.5, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Assistant Researcher
2012.3-2014.3, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Postdoctoral Researcher

Areas of Focus	Microbial origin bioactive natural products biosynthesis Antibiotic-producing bacteria self-resistance and regulatory mechanisms Genomic information guided active natural products mining
Publications	Characterization of the rifamycin-degrading monooxygenase from rifamycin producers implicating its involvement in saliniketal biosynthesis, Zheng XF, Liu XQ, Peng SY, Zhou Q, Xu B, Yuan H, Tang GL, 2020 Recent advances in HemN-like radical S-adenosyl-L-methionine enzyme-catalyzed reactions, Jin WB, Wu S, Xu YF, Yuan H, Tang GL, 2020 A radical S-adenosyl-L-methionine enzyme and a methyltransferase catalyze cyclopropane formation in natural product biosynthesis, Jin WB, Wu S, Jian XH, Yuan H, Tang GL, 2018 Bioinformatics-guided connection of a biosynthetic gene cluster to the antitumor antibiotic gilvusmycin, Wang X, Wu S, Jin W, Xu B, Tang GL, Yuan H, 2018 GyrI-like proteins catalyze cyclopropanoid hydrolysis to confer cellular protection, Yuan H, Zhang J, Cai Y, Wu S, Yang K, Chan HCS, Huang W, Jin WB, Li Y, Yin Y, Igarashi Y, Yuan S, Zhou J, Tang GL, 2017 Unified biosynthetic origin of the benzodipyrrole subunits in CC-1065, Wu S, Jian XH, Yuan H, Jin WB, Yin Y, Wang LY, Zhao J, Tang GL, 2017 The SARP family regulator Txn9 and two-component response regulator Txn11 are key activators for trioxacarcin biosynthesis in Streptomyces bottropensis, Yang K, Qi LH, Zhang M, Hou XF, Pan HX, Tang GL, Wang W, Yuan H, 2015 Two genes, rif15 and rif16, of the rifamycin biosynthetic gene cluster in Amycolatopsis mediterranei likely encode a transketolase and a P450 monooxygenase, respectively, both essential for the conversion of rifamycin SV into B, Yuan H, Zhao W, Zhong Y, Wang J, Qin Z, Ding X, Zhao GP, 2011 Complete genome sequence of the rifamycin SV-producing Amycolatopsis mediterranei U32 revealed its genetic characteristics in phylogeny and metabolism, Zhao W, Zhong Y, Yuan H, Wang J, Zheng H, Wang Y, Cen X, Xu F, Bai J, Han X, Lu G, Zhu Y, Shao Z, Yan H, Li C, Peng N, Zhang Z, Zhang Y, Lin W, Fan Y, Qin Z, Hu Y, Zhu B, Wang S, Ding X, Zhao GP, 2010

Areas of Focus

Microbial origin bioactive natural products biosynthesis
Antibiotic-producing bacteria self-resistance and regulatory mechanisms
Genomic information guided active natural products mining

Publications

Characterization of the rifamycin-degrading monooxygenase from rifamycin producers implicating its involvement in saliniketal biosynthesis, Zheng XF, Liu XQ, Peng SY, Zhou Q, Xu B, Yuan H, Tang GL, 2020
Recent advances in HemN-like radical S-adenosyl-L-methionine enzyme-catalyzed reactions, Jin WB, Wu S, Xu YF, Yuan H, Tang GL, 2020
A radical S-adenosyl-L-methionine enzyme and a methyltransferase catalyze cyclopropane formation in natural product biosynthesis, Jin WB, Wu S, Jian XH, Yuan H, Tang GL, 2018
Bioinformatics-guided connection of a biosynthetic gene cluster to the antitumor antibiotic gilvusmycin, Wang X, Wu S, Jin W, Xu B, Tang GL, Yuan H, 2018
GyrI-like proteins catalyze cyclopropanoid hydrolysis to confer cellular protection, Yuan H, Zhang J, Cai Y, Wu S, Yang K, Chan HCS, Huang W, Jin WB, Li Y, Yin Y, Igarashi Y, Yuan S, Zhou J, Tang GL, 2017
Unified biosynthetic origin of the benzodipyrrole subunits in CC-1065, Wu S, Jian XH, Yuan H, Jin WB, Yin Y, Wang LY, Zhao J, Tang GL, 2017
The SARP family regulator Txn9 and two-component response regulator Txn11 are key activators for trioxacarcin biosynthesis in Streptomyces bottropensis, Yang K, Qi LH, Zhang M, Hou XF, Pan HX, Tang GL, Wang W, Yuan H, 2015
Two genes, rif15 and rif16, of the rifamycin biosynthetic gene cluster in Amycolatopsis mediterranei likely encode a transketolase and a P450 monooxygenase, respectively, both essential for the conversion of rifamycin SV into B, Yuan H, Zhao W, Zhong Y, Wang J, Qin Z, Ding X, Zhao GP, 2011
Complete genome sequence of the rifamycin SV-producing Amycolatopsis mediterranei U32 revealed its genetic characteristics in phylogeny and metabolism, Zhao W, Zhong Y, Yuan H, Wang J, Zheng H, Wang Y, Cen X, Xu F, Bai J, Han X, Lu G, Zhu Y, Shao Z, Yan H, Li C, Peng N, Zhang Z, Zhang Y, Lin W, Fan Y, Qin Z, Hu Y, Zhu B, Wang S, Ding X, Zhao GP, 2010

Biosynthesis Microbial Natural Products Antibiotics Self-Resistance Regulatory Mechanisms Genomic Information Mining Bioactive Bacteria

Yinhua Lu - Shanghai Normal University

Shuangjun Lin - Shanghai Jiao Tong University

Meifeng Tao - Shanghai Jiao Tong University

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