In biotechnology and bioengineering, small molecules can be used to increase the efficiency reduce the cost and damage to the environment of certain bioprocesses. This book introduces readers to the important field of chemically promoted biotechnology and bioengineering and presents the theory behind the biotechnology of enzymatic reactions and how they can be chemically enhanced. The book covers chemical modulators for enzymatic reactions, chemically promoted biotechnology in plant cell cultures, chemically promoted biotechnology for plant protection and future prospects for the field. Knowledge gained allows both chemists to make use of biotechnology to solve chemical problems in an environmentally-friendly way, and biologists to make use of chemistry to increase biotechnological efficiency. This book is useful for scientists in a broad range of disciplines, including agricultural chemistry, pesticide science, medicinal chemistry, biochemistry, bio-organic chemistry, cell and molecular biology. Students and researchers in both academia and industry will find it a useful handbook.
Inhoudsopgave
From Chemical biology to its technology and engineering; Chemical Modulators for Enzymatic Reactions; Chemical Biotechnology of in vitro Biosystems for Biomanufacturing; Chemical bioengineering in plant cell culture; Chemical biotechnology for plant protection; Prospects of chemical biotechnology and bioengineering
Over de auteur
Jianhe Xu is the Professor and Director of State Key Laboratory of Bioreactor Engineering at East China University of Science and Technology. He is the Cheungkong Professor of Chinese Ministry of Education. He graduated from Tsinghua University in 1987, finished his Ph. D from East China University of Science and Technology and Kyoto University in 1995. He is Editors for Applied Biochemistry and Biotechnology, Biotechnology and Bioprocess Engineering. He has published more than 150 SCI papers in chemical biology, chemically promoted biotechnology/bioengineering with the other’s SCI citations of more than 1000 times.