Overview

Because enzyme-catalyzed reactions exhibit higher enantioselectivity, regioselectivity, substrate specificity, and stability, they require mild conditions to react while prompting higher reaction efficiency and product yields. Biocatalysis in the Pharmaceutical and Biotechnology Industries examines the use of catalysts to produce fine chemicals and chiral intermediates in a variety of pharmaceutical, agrochemical, and other biotechnological applications. Written by internationally recognized scientists in biocatalysis, the authors analyze the synthesis of chiral intermediates for over 60 brand-name pharmaceuticals for a wide range of drug therapies and treatments. From starting material to product, the chapters offer detailed mechanisms that show chiral intermediates and other by-products for each reaction—including hydrolytic, acylation, halogenation, esterification, dehalogenation, oxidation-reduction, oxygenation, hydroxylation, deamination, transamination, and C–C, C–N, C–O bonds formation. Cutting-edge topics include advanced methodologies for gene shuffling and directed evolution of biocatalysts; the custom engineering of enzymes; the use of microbial cells and isolated biocatalysts; the use of renewable starting materials; and generating novel molecules by combinatorial biocatalysis and high-throughput screening. Focusing on industrial applications, the book also considers factors such as bulk processes, instrumentation, solvent selection, and techniques for catalyst immobilization, reusability, and yield optimization throughout. Biocatalysis in the Pharmaceutical and Biotechnology Industries showcases the practical advantages and methodologies for using biocatalysts to develop and produce chiral pharmaceuticals and fine chemicals.

Full Product Details

Author:   Ramesh N. Patel
Publisher:   Taylor & Francis Ltd
Imprint:   CRC Press
Weight:   0.453kg
ISBN:  

9780367446284

ISBN 10:   0367446286
Pages:   920
Publication Date:   02 January 2020
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Paperback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Enzymatic/Microbial Preparation of Chiral Epoxides. Preparation of Optically Active Cyanohydrins using Hydroxynitrile Lyases. High-throughput Biocatalysis for Accelerated Drug Discovery and Development. Enhancing the Stability of Industrial Enzymes. Biocatalytic Hydroxlation Reactions. Dehydrogenases in Synthesis of Chiral Pharmaceuticals. Biocatalysis: Applications and Potentials for the Chemical Industry. Biocatalysis using Enzymes and Microorganisms. Vitamins and Related Compounds: Microbial Production. Biocatalysis in the Preparation of Homochiral Pharamaceuticals. Stereochemistry and Evoluation of Aminotransferases. Chemoenzymatic Synthesis of Chiral Intermediates. Overview of Biocatalysis in Ionic Liquids. Preparative Biotransformations. Directed Evolution and Biocatalysis: Enantioselective Production of Amino Carboxylic Acids. Design, Sequences, and Use of Mutant Haloalkane Dehalogenases. Enantioselective Biocatalysis using Lipases and Esterases. Biocatalysis: Reduction of C=N Bonds. Stereospecific Biocatalytic Epoxidation. Cytochrome P450 BM-3: Directed Evolution & Hydroxylation Reactions. Stereoselective Synthesis of Nucleoside Analogues. Microbial Baeyer-Villiger Oxidations. Developing Novel Biocatalysis for Manufacturing Optically Active Compounds. Enzymatic Asymmetric Synthesis by Decarboxylases. Enzymatic Asymmetric C-C Bond Synthesis. Chemoenzymic Synthesis of Glycophosphopeptides. Recent Advances on Bioreductions Mediated by Baker’s Yeast and Other Microorganisms. Biotransformation and Organic Chemistry. Synthesis of Optically Active Pheromones. Microbial Carboxylations in Enantioselective Synthesis. Lipases and Oxynitrilases: Useful Tools in Organic Synthesis. Enzymatic Asymmetric using Aldolases. Enzymatic Racemization and its Application to Synthetic Biotransformations. Amidases and Dehydrogenases in Asymmetric Synthesis. Biocatalysis in Organic Synthesis. Enantiopure Alcohols by Enzymatic Resolution with In-situ Racemization. Engineered Enzyme

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Patel, Ramesh N.

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