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From reviews to the first edtion: "Bornscheuer and Kazlauskas have set out, and succeeded, in producing a definitive manual on hydrolytic enzymes (especially lipases, esterases, and proteases) for organic chemists. This is quite simply the best book of its type and can be unreservedly recommended to organic chemists who have an interest in using hydrolytic enzymes in synthesis." (Nicholas J. Turner, University of Edinburgh) "The book is an indispensable source of information on the use of hydrolases in organic synthesis. The subject matter is very well set out, and the chapters are clearly…mehr
From reviews to the first edtion: "Bornscheuer and Kazlauskas have set out, and succeeded, in producing a definitive manual on hydrolytic enzymes (especially lipases, esterases, and proteases) for organic chemists. This is quite simply the best book of its type and can be unreservedly recommended to organic chemists who have an interest in using hydrolytic enzymes in synthesis." (Nicholas J. Turner, University of Edinburgh) "The book is an indispensable source of information on the use of hydrolases in organic synthesis. The subject matter is very well set out, and the chapters are clearly written and presented from a critical viewpoint. Bornscheuer and Kazlauskas have succeeded admirably in describing the capabilities and limitations of the use of hydrolytic enzymes and in critically evaluating them. No library should be without the book." (Fritz Theil, WITEGA Angewandte Werkstoff-Forschung GmbH, Berlin) The second edition of this extremely successful and well-proven book presents recent developments in the use of hydrolases for organic synthesis, reflecting in particular the enormous progress made in enzyme discovery and optimization with a new chapter on "Protein Sources and Optimization of Biocatalyst Performance". The renowned authors survey the stereoselective reactions of hydrolases, especially lipases, esterases and proteases, giving researchers an overview of what has worked in the past so that they can judge how to solve their own synthetic problems. In total, the book contains over one thousand chemical structures, rounded off by some 1,800 invaluable references.
Uwe Bornscheuer was born in 1964 and studied chemistry at the University of Hannover, Germany, where he graduated with his Diploma in 1990. After receiving his PhD in Chemistry in 1993 at the Institute of Technical Chemistry at the same university, he spent a postdoctoral year at the University of Nagoya, Japan. He then returned to Germany and joined the Institute of Technical Biochemistry at the University of Stuttgart, where he finished his Habilitation in 1998. Since 1999 he has been Professor for Technical Chemistry and Biotechnology at the University of Greifswald. His main research interest is the application of biocatalysts in the synthesis of optically active compounds and in lipid modification. Romas Kazlauskas studied chemistry at the Massachusetts Institute of Technology (PhD) and Harvard University (postdoc with G. M. Whitesides). He worked at General Electric Company (1985-1988) and McGill University, Montreal, Canada (1988-2003) and is currently an associate professor of Biochemistry, Molecular Biology, and Biophysics at the University of Minnesota, Twin Cities. He is an expert in enzyme selectivity, especially enantioselectivity. His current work focuses on the design of new enzymatic reactions and the molecular basis of enzyme enantioselectivity.
Inhaltsangabe
INTRODUCTION DESIGNING ENANTIOSELECTIVE REACTIONS Kinetic Resolutions Asymmetric Syntheses CHOOSING REACTION MEDIA: WATER AND ORGANIC SOLVENTS Hydrolysis in Water Transesterifications and Condensations in Organic Solvents Other Reaction Media Immobilization PROTEIN SOURCES AND OPTIMIZATION OF BIOCATALYST PERFORMANCE Accessing Biodiversity Creating Improved Biocatalysts Catalytic Promiscuity in Hydrolases LIPASES AND ESTERASES Availability, Structures and Properties Survey of Enantioselective Lipase-Catalyzed Reactions Chemo- and Regioselective Lipase-Catalyzed Reactions Reactions Catalyzed by Esterases PROTEASES AND AMIDASES Occurrence and Availability of Proteases and Amidases General Features of Subtilisin, Chymotrypsin, and Other Proteases and Amidases Structures of Proteases and Amidases Survey of Enantioselective Protease- and Amidase-Catalyzed Reactions PHOSPHOLIPASES Phospholipase A1 Phospholipase A2 Phospholipase C Phospholipase D EPOXIDE HYDROLASES Introduction Mammalian Epoxide Hydrolases Microbial Epoxide Hydrolases HYDROLYSIS OF NITRILES Introduction Mild Conditions Regioselective Reactions of Dinitriles Enantioselective Reactions OTHER HYDROLASES Glycosidases Haloalcohol Dehalogenases Phosphotriesterases
Introduction
DESIGNING OF ENANTIOSELECTIVE REACTIONS
Quantitative Analysis
CHOOSING REACTION MEDIA: WATER AND ORGANIC SOLVENTS
Hydrolysis in Water
Transesterifications and Condensations in Organic Solvents
Other Reaction Media
Useful Techniques
PROTEIN SOURCES AND OPTIMIZATION OF BIOCATALYST PERFORMANCE
Protein Sources
Methods for Protein Modeling / Bioinformatics
Directed Evolution
AVAILABILITY AND STRUCTURE OF LIPASES, ESTERASES, PROTEASES
Lipases and Esterases
Proteases and Amidases
How to Distinguish between Lipase, Esterase, and Protease
SURVEY OF ENANTIOSELECTIVE LIPASE-CATALYZED REACTIONS
Alcohols
Carboxylic Acids
Lactones
Dynamic Kinetic Resolutions
Commercial Enantioselective Reactions
CHEMO- AND REGIOSELECTIVE LIPASE-CATALYZED REACTIONS
Protection and Deprotection Reactions
Other Lipase-Catalyzed Reactions
PHOSPHOLIPASES
Phospholipase A1
Phospholipase A2
Phospholipase C
Phospholipase D
SURVEY OF ENANTIOSELECTIVE PROTEASE- AND AMIDASE-CATALYZED REACTIONS
INTRODUCTION DESIGNING ENANTIOSELECTIVE REACTIONS Kinetic Resolutions Asymmetric Syntheses CHOOSING REACTION MEDIA: WATER AND ORGANIC SOLVENTS Hydrolysis in Water Transesterifications and Condensations in Organic Solvents Other Reaction Media Immobilization PROTEIN SOURCES AND OPTIMIZATION OF BIOCATALYST PERFORMANCE Accessing Biodiversity Creating Improved Biocatalysts Catalytic Promiscuity in Hydrolases LIPASES AND ESTERASES Availability, Structures and Properties Survey of Enantioselective Lipase-Catalyzed Reactions Chemo- and Regioselective Lipase-Catalyzed Reactions Reactions Catalyzed by Esterases PROTEASES AND AMIDASES Occurrence and Availability of Proteases and Amidases General Features of Subtilisin, Chymotrypsin, and Other Proteases and Amidases Structures of Proteases and Amidases Survey of Enantioselective Protease- and Amidase-Catalyzed Reactions PHOSPHOLIPASES Phospholipase A1 Phospholipase A2 Phospholipase C Phospholipase D EPOXIDE HYDROLASES Introduction Mammalian Epoxide Hydrolases Microbial Epoxide Hydrolases HYDROLYSIS OF NITRILES Introduction Mild Conditions Regioselective Reactions of Dinitriles Enantioselective Reactions OTHER HYDROLASES Glycosidases Haloalcohol Dehalogenases Phosphotriesterases
Introduction
DESIGNING OF ENANTIOSELECTIVE REACTIONS
Quantitative Analysis
CHOOSING REACTION MEDIA: WATER AND ORGANIC SOLVENTS
Hydrolysis in Water
Transesterifications and Condensations in Organic Solvents
Other Reaction Media
Useful Techniques
PROTEIN SOURCES AND OPTIMIZATION OF BIOCATALYST PERFORMANCE
Protein Sources
Methods for Protein Modeling / Bioinformatics
Directed Evolution
AVAILABILITY AND STRUCTURE OF LIPASES, ESTERASES, PROTEASES
Lipases and Esterases
Proteases and Amidases
How to Distinguish between Lipase, Esterase, and Protease
SURVEY OF ENANTIOSELECTIVE LIPASE-CATALYZED REACTIONS
Alcohols
Carboxylic Acids
Lactones
Dynamic Kinetic Resolutions
Commercial Enantioselective Reactions
CHEMO- AND REGIOSELECTIVE LIPASE-CATALYZED REACTIONS
Protection and Deprotection Reactions
Other Lipase-Catalyzed Reactions
PHOSPHOLIPASES
Phospholipase A1
Phospholipase A2
Phospholipase C
Phospholipase D
SURVEY OF ENANTIOSELECTIVE PROTEASE- AND AMIDASE-CATALYZED REACTIONS
Alcohols and Amines
Carboxylic Acids
REACTIONS CATALYZED BY ESTERASES
Pig Liver Esterase
Acetylcholine Esterase
Other Mammalian Esterases
Microbial Esterases
EPOXIDE HYDROLASES
Introduction
Mammalian Epoxide Hydrolases
Microbial Epoxide Hydrolases
HYDROLYSIS OF NITRILES
Introduction
Mild Conditions
Regioselective Reactions
Enantioselective Reactions
GLYCOSIDASES
Abbreviations
References
Index
Rezensionen
"...for those who have not previosly purchased the first edition, this is an excellent buy. (...) The subject matter is discussed from the view point of the organic chemist and the chapters are arranged by functional group transformations rather than by enzyme type. This makes for an easy-to-read text, nicely separated by schemes and figures, all beautifully produced. In conclusion, this second edition should be in every library interested in organic synthesis." - Organic Process Research & Development Journal
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