Description
Enzyme Catalysis in Organic Synthesis, 3 Volume Set (3rd Ed., 3rd, Completely Revised and Enlarged Edition)
3 Volume Set
Coordinators: Drauz Karlheinz, Gröger Harald, May Oliver
Language: English
Subject for Enzyme Catalysis in Organic Synthesis, 3 Volume Set:
Publication date: 03-2012
2038 p. · 18x24.9 cm · Hardback
2038 p. · 18x24.9 cm · Hardback
Description
/li>Contents
/li>Biography
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This comprehensive three-volume set is the standard reference in the field of organic synthesis, catalysis and biocatalysis.
Edited by a highly experienced and highly knowledgeable team with a tremendous amount of experience in this field and its applications, this edition retains the successful concept of past editions, while the contents are very much focused on new developments in the field.
All the techniques described are directly transferable from the lab to the industrial scale, making for a very application-oriented approach.
A must for all chemists and biotechnologists.
Edited by a highly experienced and highly knowledgeable team with a tremendous amount of experience in this field and its applications, this edition retains the successful concept of past editions, while the contents are very much focused on new developments in the field.
All the techniques described are directly transferable from the lab to the industrial scale, making for a very application-oriented approach.
A must for all chemists and biotechnologists.
VOLUME 1
PART I PRINCIPLES OF ENZYME CATALYSIS
Introduction -
Principles and Historical Landmarks of Enzyme Catalysis in Organic Synthesis
Concepts in Biocatalysis
Discovery of Enzymes
Rational Design of Enzymes
Directed Evolution of Enzymes
Production and Isolation of Enzymes
Reaction and Process Engineering
PART II HYDROLYSIS AND FORMATION OF C-O BONDS
Hydrolysis and Formation of Carboxylic Acid Esters
Hydrolysis and Formation of Epoxides
Hydrolysis and Formation of Glycosidic Bonds
Addition of Water to C¼C Bonds and its Elimination
Industrial Application and Processes Forming C-O Bonds
VOLUME 2
PART III HYDROLYSIS AND FORMATION OF C-N BONDS
Hydrolysis of Nitriles to Amides
Hydrolysis of Nitriles to Carboxylic Acids
Hydrolysis of Amides
Hydrolysis and Formation of Hydantoins
Hydrolysis and Synthesis of Peptides
C-N Lyases Catalyzing Addition of Ammonia, Amines, and Amides to C¼C and C¼O Bonds
Application of Transaminases
Industrial Applications and Processes Using Enzymes Acting on C-N Bonds
PART IV FORMATION AND CLEAVAGE OF C-C BONDS
Aldol Reactions
Acyloin and Benzoin Condensations
Cleavage and Formation of Cyanohydrins
Industrial Application and Processes Using Carbon-Carbon Lyases
PART V HYDROLYSIS AND FORMATION OF P-O BONDS
Hydrolysis and formation of P-O Bonds
PART VI REDUCTIONS
Reduction of Ketones and Aldehydes to Alcohols
Reduction of C¼C Double Bonds
Reductive Amination of Keto Acids
Industrial Application of Oxidoreductase catalyzed Reduction of Ketones and Aldehydes
VOLUME 3
PART VII OXIDATIONS
Oxyfunctionalization of C-H Bonds
Oxyfunctionalization of C-C Multiple Bonds
Oxidation of Alcohols, Aldehydes, and Acids
Baeyer-Villiger Oxidations
Aromatic Oxidations
Oxidation of C-N Bonds
Oxidation at Sulfur and Oxidation of Amino Groups
Halogenation
Industrial Application and Processes Using Biocatalysts for Oxidation Reactions
PART VIII ISOMERIZATIONS
Isomerizations
Industrial Application and Processes Using Isomerases
PART IX EXTENDED APPLICATIONS OF ENZYME CATALYSIS
Enzymatic Catalytic Promiscuity and the Design of New Enzyme Catalyzed Reactions
Catalytic Antibodies
Chemoenzymatic Dynamic Kinetic Resolution and Related Dynamic Asymmetric Transformations
Biocatalysis in Material Science
Industrial Applications of Enzymes in Emerging Areas
PART X TABULAR SURVEY OF AVAILABLE ENZYMES
Tabular Survey of Available Enzymes
PART I PRINCIPLES OF ENZYME CATALYSIS
Introduction -
Principles and Historical Landmarks of Enzyme Catalysis in Organic Synthesis
Concepts in Biocatalysis
Discovery of Enzymes
Rational Design of Enzymes
Directed Evolution of Enzymes
Production and Isolation of Enzymes
Reaction and Process Engineering
PART II HYDROLYSIS AND FORMATION OF C-O BONDS
Hydrolysis and Formation of Carboxylic Acid Esters
Hydrolysis and Formation of Epoxides
Hydrolysis and Formation of Glycosidic Bonds
Addition of Water to C¼C Bonds and its Elimination
Industrial Application and Processes Forming C-O Bonds
VOLUME 2
PART III HYDROLYSIS AND FORMATION OF C-N BONDS
Hydrolysis of Nitriles to Amides
Hydrolysis of Nitriles to Carboxylic Acids
Hydrolysis of Amides
Hydrolysis and Formation of Hydantoins
Hydrolysis and Synthesis of Peptides
C-N Lyases Catalyzing Addition of Ammonia, Amines, and Amides to C¼C and C¼O Bonds
Application of Transaminases
Industrial Applications and Processes Using Enzymes Acting on C-N Bonds
PART IV FORMATION AND CLEAVAGE OF C-C BONDS
Aldol Reactions
Acyloin and Benzoin Condensations
Cleavage and Formation of Cyanohydrins
Industrial Application and Processes Using Carbon-Carbon Lyases
PART V HYDROLYSIS AND FORMATION OF P-O BONDS
Hydrolysis and formation of P-O Bonds
PART VI REDUCTIONS
Reduction of Ketones and Aldehydes to Alcohols
Reduction of C¼C Double Bonds
Reductive Amination of Keto Acids
Industrial Application of Oxidoreductase catalyzed Reduction of Ketones and Aldehydes
VOLUME 3
PART VII OXIDATIONS
Oxyfunctionalization of C-H Bonds
Oxyfunctionalization of C-C Multiple Bonds
Oxidation of Alcohols, Aldehydes, and Acids
Baeyer-Villiger Oxidations
Aromatic Oxidations
Oxidation of C-N Bonds
Oxidation at Sulfur and Oxidation of Amino Groups
Halogenation
Industrial Application and Processes Using Biocatalysts for Oxidation Reactions
PART VIII ISOMERIZATIONS
Isomerizations
Industrial Application and Processes Using Isomerases
PART IX EXTENDED APPLICATIONS OF ENZYME CATALYSIS
Enzymatic Catalytic Promiscuity and the Design of New Enzyme Catalyzed Reactions
Catalytic Antibodies
Chemoenzymatic Dynamic Kinetic Resolution and Related Dynamic Asymmetric Transformations
Biocatalysis in Material Science
Industrial Applications of Enzymes in Emerging Areas
PART X TABULAR SURVEY OF AVAILABLE ENZYMES
Tabular Survey of Available Enzymes
Karlheiz Drauz is Vice President International Scientific Relations of Evonik. He evaluates interesting topics in research and development and networks globally with academic and industrial institutions. He did his Ph.D. at the Technical University Stuttgart, Germany, and started his career at Degussa 1980 in various positions in research and development. Amoungst his research interests are amino acids, peptides, biological active compounds, asymmetric synthesis, metal and biocatalysis as well as process chemistry. He holds about 160 patents, about 100 scientific publications. Since 1992 he is honorary professor for organic chemistry at the University Würzburg, Germany.
Harald Gröger is since 2006 Professor for organic chemistry at the University of Erlangen-Nürnberg, Germany. He studied chemistry at the Universities of Erlangen-Nürnberg and Oldenburg, before he did his postdoc with Masakatsu Shibasaki at the University of Tokyo. He worked from 1998 to 2006 in industry, e.g. as senior project manager for White Biotechnology of Degussa. He received several awards, like the Degussa innovation prize for new products (2003) and for new and optimized processes (2005), the Thieme award in 2007 and the German business sectors innovation prize (2004). His research interests are enzyme catalyzed organic synthesis, design and use of biomimetic chemocatalysts as well as sustainable chemistry.
Oliver May is Competence Manager Biocatalysis and responsible for coordinating biocatalysis related activities of DSM Pharmaceutical Products. Before joining DSM in April 2006, he was with Degussa (now Evonik) in various functions; latest as General Manager of Degussa's Service Center Biocatalysis. He was educated in Germany, receiving a PhD degree in Technical Biology from the University of Stuttgart where he worked at the Institute of Biochemical Engineering for Prof. C. Syldatk and at the German Center for Biotechnology in Braunschweig with Prof. D. Schomburg. He join
Harald Gröger is since 2006 Professor for organic chemistry at the University of Erlangen-Nürnberg, Germany. He studied chemistry at the Universities of Erlangen-Nürnberg and Oldenburg, before he did his postdoc with Masakatsu Shibasaki at the University of Tokyo. He worked from 1998 to 2006 in industry, e.g. as senior project manager for White Biotechnology of Degussa. He received several awards, like the Degussa innovation prize for new products (2003) and for new and optimized processes (2005), the Thieme award in 2007 and the German business sectors innovation prize (2004). His research interests are enzyme catalyzed organic synthesis, design and use of biomimetic chemocatalysts as well as sustainable chemistry.
Oliver May is Competence Manager Biocatalysis and responsible for coordinating biocatalysis related activities of DSM Pharmaceutical Products. Before joining DSM in April 2006, he was with Degussa (now Evonik) in various functions; latest as General Manager of Degussa's Service Center Biocatalysis. He was educated in Germany, receiving a PhD degree in Technical Biology from the University of Stuttgart where he worked at the Institute of Biochemical Engineering for Prof. C. Syldatk and at the German Center for Biotechnology in Braunschweig with Prof. D. Schomburg. He join
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