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Chemical biotechnology and bioengineering / Xuhong Qian [and seven others].
Bibliographic Record Display
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Title:Chemical biotechnology and bioengineering / Xuhong Qian [and seven others].
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Other Contributors/Collections:Qian, Xuhong, editor, author.
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Published/Created:Cambridge : Royal Society of Chemistry, [2015]
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Holdings
Holdings Record Display
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Location:WOODWARD LIBRARY stacksWhere is this?
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Call Number: TP248.2 .C486 2015
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Number of Items:1
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Status:Available
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Links:Donor bookplate
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Location:WOODWARD LIBRARY stacksWhere is this?
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Library of Congress Subjects:Biotechnology.
Bioengineering.
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Description:xiii, 219 pages : illustrations (black and white) ; 25 cm
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Series:RSC green chemistry series ; 34.
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Summary:"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."--Provided by publisher.
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Additional formats:Also issued online.
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Notes:Includes bibliographical references and index.
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ISBN:9781849738101 (hardback)
1849738106 (hardback)
9781782620129 (ebook)
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Contents:Machine generated contents note: 1.1. History and Applications of Biotechnology / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.2. Introduction to Chemical Biotechnology and Bioengineering / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.2.1. Chemical Biotechnology and Bioengineering / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.2.2. Green Chemistry / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.3. Some Examples of Chemical Biotechnology and Bioengineering / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.3.1. Chemical Modulators for Enzymatic Reactions / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.3.2. Chemical Biotechnology in the Regulation of Non-canonical DNA Structures / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.3.3. In Vitro Chemical Biotechnology Biosystems for Biomanufacturing / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.3.4. Chemical Bioengineering in Microbial Electrochemical Systems / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.3.5. Chemical Bioengineering in Plant Cell Culture / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
1.3.6. Chemical Biotechnology for Plant Protection / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
References / Xuhong Qian / Zhenjiang Zhao / Jian-He Xu / Yufang Xu / Yi-Heng Percival Zhang / Fengxian Hu / Jingyan Zhang / Yang-Chun Yong
2.1. Asymmetric Synthesis Using Biocatalysts / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.1.1. Introduction to Asymmetric Synthesis / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.1.2. Enzyme Classification and Examples / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.1.3. Overview of Enzymes Used in Chiral Synthesis / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.2. Chemical Modulators for Enantioselective Biocatalysis / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.2.1. Enantioselective Hydrolysis of Ketoprofen Esters Using Yeast Cells / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.2.2. Enzymatic Hydrolysis of Chiral Esters Using Lipase or Esterase / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.2.3. Enantioselective Hydrolysis with Epoxide Hydrolases / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.3. Chemical Modulators for Promoting Glycosidase Reactions / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.3.1. Modulating Effect of Non-ionic Surfactants on Ginsenoside Biohydrolysis / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.3.2. Enzymatic Synthesis of Alkyl Glycosides by Reverse Hydrolysis / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.3.3. Enzymatic Synthesis of Alkyl Glycosides with Ionic Liquid as a Modulator / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.4. Modulating Enzymatic Reaction by Immobilization Techniques / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.4.1. Reactors with Immobilized Enzymes on Classic Supports / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.4.2. Performance of Nanoparticle-Supported Enzymes / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.4.3. Reactions Using Crosslinked Enzyme Aggregates / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.5. Modulating Enzyme Reaction by Amino Acid Substitutions / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.5.1. Overview of Amino Acid Substitution Techniques / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.5.2. Improving Enzyme Activities for Bulky Substrates / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.5.3. Modulating Enzyme Selectivity for Preferable Substrates / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
2.5.4. Enhancing Thermostability for More Robust Enzymes / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
References / Jian-He Xu / Gao-Wei Zheng / Xiao-Jing Luo
3.1. Introduction / Chong Wang / Jingyan Zhang / Shouwu Guo
3.1.1. Non-canonical DNA Structures / Chong Wang / Jingyan Zhang / Shouwu Guo
3.2. Regulating the Structures of Non-canonical DNA with Small Molecules / Chong Wang / Jingyan Zhang / Shouwu Guo
3.2.1. Small Molecules that Induce and Stabilize Z-DNA Structures / Chong Wang / Jingyan Zhang / Shouwu Guo
3.2.2. Small Molecules that Bind and Modulate A-motif Structures / Chong Wang / Jingyan Zhang / Shouwu Guo
3.2.3. Small Molecules that Stabilize Triplex DNA Structures / Chong Wang / Jingyan Zhang / Shouwu Guo
3.2.4. Small Molecules that Interact with G-quadruplexes / Chong Wang / Jingyan Zhang / Shouwu Guo
3.2.5. Small Molecules Induce and Promote the Stability of i-Motif Structure / Chong Wang / Jingyan Zhang / Shouwu Guo
3.3. Novel DNA Modulation Systems / Chong Wang / Shouwu Guo / Jingyan Zhang
3.3.1. Carbon Nanotubes (CNTs) / Chong Wang / Shouwu Guo / Jingyan Zhang
3.3.2. Graphene Oxide (GO) / Chong Wang / Shouwu Guo / Jingyan Zhang
3.3.3. Graphene Quantum Dots (GQDs) and their Interaction with i-Motif DNA / Chong Wang / Shouwu Guo / Jingyan Zhang
3.4. Potential Applications of the Interactions of CNTs and GO with DNA / Chong Wang / Shouwu Guo / Jingyan Zhang
3.4.1. Gene Delivery / Chong Wang / Shouwu Guo / Jingyan Zhang
3.4.2. Anticancer Drugs / Chong Wang / Shouwu Guo / Jingyan Zhang
3.5. Perspectives / Chong Wang / Shouwu Guo / Jingyan Zhang
References / Chong Wang / Shouwu Guo / Jingyan Zhang
4.1. Introduction / Yi-Heng Percival Zhang / Zhiguang Zhu
4.1.1. Definition / Yi-Heng Percival Zhang / Zhiguang Zhu
4.1.2. History / Yi-Heng Percival Zhang / Zhiguang Zhu
4.1.3. Advantages and Disadvantages / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2. Biomanufacturing Advantages of In Vitro Synthetic Biosystems / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2.1. High Product Yield / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2.2. Fast Reaction Rate / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2.3. Easy Product Separation / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2.4. Easy Process and Control / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2.5. Tolerance of Toxic Compounds / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2.6. Capability of Performing Unnatural Reactions / Yi-Heng Percival Zhang / Zhiguang Zhu
4.2.7. Shifting Reaction Equilibrium / Yi-Heng Percival Zhang / Zhiguang Zhu
4.3. Biomimetic Cofactors: Role of Chemicals / Yi-Heng Percival Zhang / Zhiguang Zhu
4.3.1. Biomimetic NADP / Yi-Heng Percival Zhang / Zhiguang Zhu
4.3.2. Biomimetic Flavin / Yi-Heng Percival Zhang / Zhiguang Zhu
4.3.3. Biomimetic ATP (Polyphosphate) / Yi-Heng Percival Zhang / Zhiguang Zhu
4.4. Perspectives / Yi-Heng Percival Zhang / Zhiguang Zhu
4.5. Conclusions / Yi-Heng Percival Zhang / Zhiguang Zhu
Acknowledgments / Yi-Heng Percival Zhang / Zhiguang Zhu
References / Yi-Heng Percival Zhang / Zhiguang Zhu
5.1. Introduction to Microbial Electrochemical Systems / Yang-Chun Yong / Dan-Dan Zhai
5.2. Chemistry of MES / Yang-Chun Yong / Dan-Dan Zhai
5.2.1. Chemistry of MFC for Energy Harvesting from Waste / Yang-Chun Yong / Dan-Dan Zhai
5.2.2. Chemistry of MESy for Electrocommodities Production / Yang-Chun Yong / Dan-Dan Zhai
5.2.3. Chemistry of Extracellular Electron Transfer / Yang-Chun Yong / Dan-Dan Zhai
5.3. Chemical Bioengineering of Extracellular Electron Transfer in MES / Yang-Chun Yong / Dan-Dan Zhai
5.3.1. Chemical Electron Shuttles Activate Electron Transfer / Yang-Chun Yong / Dan-Dan Zhai
5.3.2. Conductive Polymer-Bridged Direct Electron Transfer / Yang-Chun Yong / Dan-Dan Zhai
5.3.3. Carbon Nanomaterial-Promoted Direct Electron Transfer / Yang-Chun Yong / Dan-Dan Zhai
5.4. Chemical Manipulation of Cell Physiology in MES / Yang-Chun Yong / Dan-Dan Zhai
5.4.1. Chemically Improved Cell Permeability for Efficient MES / Yang-Chun Yong / Dan-Dan Zhai
5.4.2. Metal Ions Improve Cell Adherence for Efficient MES / Yang-Chun Yong / Dan-Dan Zhai
5.4.3. Quorum Sensing Signaling-Mediated Population Manipulation for Efficient MES / Yang-Chun Yong / Dan-Dan Zhai
5.4.4. Cell Immobilization for Improved MES / Yang-Chun Yong / Dan-Dan Zhai
5.5. Concluding Remarks and Perspectives / Yang-Chun Yong / Dan-Dan Zhai
Acknowledgements / Yang-Chun Yong / Dan-Dan Zhai
References / Yang-Chun Yong / Dan-Dan Zhai
6.1. Plant Cell Culture / Fengxian Hu / Zhenjiang Zhao / Yufang Xu
6.1.1. Plant Secondary Metabolites / Fengxian Hu / Zhenjiang Zhao / Yufang Xu
6.1.2. Secondary Metabolites from Plant Cell Culture Technology / Fengxian Hu / Yufang Xu / Zhenjiang Zhao
6.1.3. Strategies to Improve Secondary Metabolite Production / Fengxian Hu / Yufang Xu / Zhenjiang Zhao
Contents note continued: 6.2. Elicitors in Plant Cell Culture / Fengxian Hu / Yufang Xu / Zhenjiang Zhao
6.2.1. Biotransformation Action Mechanism of Elicitors / Yufang Xu / Zhenjiang Zhao / Fengxian Hu
6.2.2. Classification of Elicitors / Fengxian Hu / Zhenjiang Zhao / Yufang Xu
6.2.3. Natural Chemical Elicitors / Fengxian Hu / Yufang Xu / Zhenjiang Zhao
6.2.4. Synthetic Organic Elicitors / Yufang Xu / Zhenjiang Zhao / Fengxian Hu
6.3. Application of Chemical Bioengineering in Plant Cell Culture / Zhenjiang Zhao / Yufang Xu / Fengxian Hu
6.3.1. Taxane Productions from Taxus chinensis Cell Cultures / Yufang Xu / Zhenjiang Zhao / Fengxian Hu
6.3.2. Ginsenosides from Panax notoginseng Cell Cultures / Zhenjiang Zhao / Yufang Xu / Fengxian Hu
6.4. Perspectives / Yufang Xu / Zhenjiang Zhao / Fengxian Hu
References / Yufang Xu / Fengxian Hu / Zhenjiang Zhao
7.1. Biotechnology in Agriculture / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.1.1. Arable Land / Yufang Xu / Zhenjiang Zhao / Xuhong Qian
7.1.2. Water Management / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.1.3. Agrichemicals: Fertilizers and Pesticides / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.1.4. Biotechnology in Agriculture / Yufang Xu / Zhenjiang Zhao / Xuhong Qian
7.2. Chemical Promoted Biotechnology: Plant Activators (Ecological Pesticides) / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.2.1. Introduction / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.2.2. Plant Activators: Action Mechanism / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.3. Practical Plant Activators / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.3.1. Introduction / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.3.2. BTH and Its Analogs / Yufang Xu / Xuhong Qian / Zhenjiang Zhao
7.3.3. 2,6-Dichloroisonicotinic Acid (INA) and Its Derivative (NCI) / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.3.4. Probenazole (PBZ) and Saccharin (BIT) / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.3.5. Tiadinil (TDL): Thiazole Derivatives / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.3.6. Plant Defense against Herbivores by Plant Activators / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
7.4. Future Development of Plant Activators / Zhenjiang Zhao / Yufang Xu / Xuhong Qian
References / Zhenjiang Zhao / Yufang Xu / Xuhong Qian.