SCHOOL OF CHEMICAL ENGINEERING

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教授

赵广荣

现任职称/职务:教授
通讯地址:天津大学54楼
电子邮箱:grzhao@tju.edu.cn
办公电话:022-85356580

论著专利:

[1] Guang-Rong Zhao, Zhi-Jun Xiang, Ting-Xiang Ye, Ying-Jin Yuan, Zhi-xin Guo. Antioxidant activities of Salvia miltiorrhiza and Panaxnotoginseng.Food Chemistry, 2006, 99:767-774

[2] Guang-Rong Zhao, Heng-Ming Zhang, Ting-Xiang Ye, Zhi-Jun Xiang, Ying-Jin Yuan, Zhi-Xin Guo, Li-Bin Zhao. Characterization of the radical scavenging and antioxidant activities of danshensu and salvianolic acid B. Food and Chemical Toxicology, 2008, 46(1):73-81.

[3] Yuan-Feng Yao, Chang-Song Wang, Jianjun Qiao, Guang-Rong Zhao. Metabolic engineering of Escherichia coli for production of salvianic acid A via an artificial biosynthetic pathway. Metabolic Engineering, 2013, 19: 79-87

[4] Ying Zhao, Chang-Song Wang, Fei-Fei Li, Zhen-Ning Liu, Guang-Rong Zhao. Targeted optimization of central carbon metabolism for engineering succinate production in Escherichia coli. BMC Biotechnology, 2016, 16:52

[5]  Fei-Fei Li, Ying Zhao, Bing-Zhi Li, Jian-Jun Qiao, Guang-Rong Zhao. Engineering Escherichia coli for production of 4-hydroxymandelic acid using glucose-xylose mixture. Microbial Cell Factories, 2016, 15:90

[6] Liang Zhou, Qi Ding, Guo-Zhen Jiang,  Zhen-Ning Liu, Hai-Yan Wang, Guang-Rong Zhao. Chromosome engineering ofEscherichia colifor constitutive production of salvianic acid A. Microbial Cell Factory, 2017, 16:84

[7] Ying Zhao, Bi-Han Wu, Zhen-Ning Liu, Jian-Jun Qiao, Guang-Rong Zhao.Combinatorial optimization of resveratrol production in engineered E. coli. Journal of Agricultural and Food Chemistry 2018, 66: 13444-13453.

[8] Xue Liu, Xiao-Bo Li, Jianlan Jiang, Zhen-Ning Liu, Bin Qiao, Fei-Fei Li, Jing-Sheng Cheng, Xiaocun Sun, Ying-Jin Yuan, Jianjun Qiao, Guang-Rong Zhao. Convergent engineering of syntrophic Escherichia coli coculture for efficient production of glycosides. Metabolic Engineering,2018, 47:243-253.

[9] Liu X, Li L, Liu J, Qiao J, Zhao G-R.Metabolic engineering Escherichia coli for efficient production of icariside D2. Biotechnol Biofuels, 2019, 12:261.

[10]Wu J, Cheng S, Cao J, Qiao J, Zhao G-R. Systematic optimization of limonene production in engineeredEscherichia coli. Journal of Agricultural and Food Chemistry,2019, 67(25):7087-7097.

[11]Cheng S, Liu X, Jiang G, Wu J, Zhang J-L, Lei D, Yuan Y-J, Qiao J, Zhao G-R. Orthogonal engineering of biosynthetic pathway for efficient production of limonene inSaccharomyces cerevisiae. ACS Synthetic Biology, 2019,8(5):968-975.

[12]Hou Y, Liu X, Li S, Zhang X, Yu S, Zhao G-R. Metabolic Engineering ofEscherichia colifor de Novo Production of Betaxanthins. J Agric Food Chem. 2020, 68(31):8370-8380.

[13] Liu Z, Lei D, Qiao B, Li S, Qiao J, Zhao G-R. Integrative Biosynthetic Gene Cluster Mining to Optimize a Metabolic Pathway to Efficiently Produce l-Homophenylalanine inEscherichia coli. ACS Synth Biol. 2020, 9(11):2943-2954.


教材:

[1]元英进主编,赵广荣、孙铁民副主编,制药工艺学(普通高等学校“十一五”国家级规划教材),第二版,化学工业出版社,2017

[2] 赵广荣,杨冬,财音青格乐,白姝,现代生命科学与生物技术,天津大学出版社,2008

[3] 赵广荣 主编,现代制药工艺学(全国工程专业学位研究生教育国家级规划教材),清华大学出版社,2015

[4] 赵临襄、赵广荣 主编,制药工艺学(卫计委“十二五”规划教材),人民卫生出版社,2014

[5]元英进主编,赵广荣、孙铁民副主编,制药工艺学(普通高等学校“十一五”国家级规划教材),化学工业出版社,2007