Download Free Enzyme Technologies Book in PDF and EPUB Free Download. You can read online Enzyme Technologies and write the review.

This textbook provides a clear and authoritative guide to the principles and practice of the utilization of enzymes in biotechnology. Enzymes have increasingly important applications in the food and pharmaceutical industry, in medicine, and as biosensors.
Advances in Enzyme Catalysis and Technologies intends to provide the basic structural and functional descriptions, and classification of enzymes. The scientific information related to the recombinant enzyme modifications, discovery of novel enzymes and development of synthetic enzymes are also presented. The translational aspects of enzyme catalysis and bioprocess technologies are illustrated, by emphasizing the current requirements and future perspectives of industrial biotechnology. Several case studies are included on enzymes for biofuels application, micro algal biorefineries, high-value bioactive molecules production and enzymes for environmental processes, such as enzymatic bioprocessing for functional food development, biocatalytic technologies for the production of functional sweetener, etc. - Provides a conceptual understanding of enzyme catalysis, enzyme engineering, discovery of novel enzymes, and technology perspectives - Includes comprehensive information about the inventions and advancement in enzyme system development for biomass processing and functional food developmental aspects - Gives an updated reference for education and understanding of enzyme technology
The food industry is constantly seeking advanced technologies to meet consumer demand for nutritionally balanced food products. Enzymes are a useful biotechnological processing tool whose action can be controlled in the food matrix to produce higher quality products. Written by an international team of contributors, Novel enzyme technology for food applications reviews the latest advanced methods to develop specific enzymes and their applications.Part one discusses fundamental aspects of industrial enzyme technology. Chapters cover the discovery, improvement and production of enzymes as well as consumer attitudes towards the technology. Chapters in Part two discuss enzyme technology for specific food applications such as textural improvement, protein-based fat replacers, flavour enhancers, and health-functional carbohydrates.Novel enzyme technology for food applications is a standard reference for all those in industry and academia concerned with improving food products with this advanced technology. - Reviews the latest advanced methods to develop specific enzymes - Discusses ways of producing higher quality food products - Explores the improvement and production of enzymes
Publisher Description
Sets the stage for advances in drug discovery using the latest enzyme technology Reviewing new and emerging applications of enzyme technology in drug discovery, this book highlights some of the most promising areas of pharmaceutical and biotechnology research. It covers enzyme assay technology, utilization of enzymology for prodrug design, and the application of enzymes as therapeutic agents. Expert reviews highlight how our latest understanding of enzymology is used to develop new practical applications in drug discovery and design. Filled with case studies, Enzyme Technologies: Pluripotent Players in Discovering Therapeutic Agents enables readers to better understand the diverse functions of enzymes and master specific applications in drug discovery research. In addition to small molecule drug discovery, the book explores new developments in enzymes as therapeutic agents for genetic disorders. Section A, Enzymes – Essential Workhorses in Pharmaceutical Research, offers support in selecting the best enzyme targets for drug discovery, designing enzyme inhibitors for therapeutic agents, and evaluating selective enzyme inhibitors. Section B, Enzymes – Indispensable Tools for Improving Druggability, sets forth the principles alongside real-world examples of exploiting specific properties of enzymes to design successful prodrugs. Section C, Enzymes – Powerful Weapons for Correcting Nature's Errors, provides new insights on applying enzymes as therapeutic agents or diagnostic tools to treat genetic disorders. Chapters are contributed by leading experts from around the world. Their contributions are based on a thorough review of the current literature as well as their own research. Reviewing our latest understanding of the nature of enzymes and their role in drug discovery, this book is recommended for researchers in pharmaceuticals and biotechnology as well as for researchers in enzymology, biochemistry, molecular biology, and medicinal chemistry.
Coordination of microbial metabolism. Biosynthesis of primary metabolites. Biosynthesis of secondary metabolites. Bioconversions. Regulation of enzyme production. Fermentation kinectics. Continuous culture. Kinectis and engineering of medium sterilization. Aeration and agitation. Translation of laboratory, pilot, and plant scale data. Instrumentation and control. Enzyme isolation. Enzyme kinectics and immobilization. Enzyme reactors.
This second edition of a bestselling textbook offers an instructive and comprehensive overview of our current knowledge of biocatalysis and enzyme technology. The book now contains about 40% more printed content. Three chapters are completely new, while the others have been thoroughly updated, and a section with problems and solutions as well as new case studies have been added. Following an introduction to the history of enzyme applications, the text goes on to cover in depth enzyme mechanisms and kinetics, production, recovery, characterization and design by protein engineering. The authors treat a broad range of applications of soluble and immobilized biocatalysts, including wholecell systems, the use of non-aqueous reaction systems, applications in organic synthesis, bioreactor design and reaction engineering. Methods to estimate the sustainability, important internet resources and their evaluation, and legislation concerning the use of biocatalysts are also covered.
This book gives a broad account of enzymology and aim to put the current knowledge into perspective. The chapters follow a progression from the properties of isolated enzymes to the behaviour of enzymes in increasingly complex systems, leading up to the cell. Included is the discussion on the importance of enzymes in medicine and industry. This book discusses the behaviour of isolated enzymes, dealing in turn with isolation methods, structural characterization, kinetics, catalytic action and control of activity, immobilization methods and various applications of enzymes. The methods for isolation and characterization of enzymes are now well-established procedures, so the rate at which three-dimensional structures and mechanisms are being determined is increasing dramatically. Ultimately it is necessary to know the behaviour of enzymes in living cells. This involves in part a synthesis of the information obtained from the study of isolated enzymes, but it also requires detailed knowledge of the molecular morphology of the cell, which in turn requires methods for making measurements on intact cells. The study and application of enzymes have assumed increasing importance both in medicine and in industry and a discussion of these aspects is therefore given prime importance.
This reference is a "must-read": It explains how an effective and economically viable enzymatic process in industry is developed and presents numerous successful examples which underline the efficiency of biocatalysis.
The main subject of the "Ill. Rotenburger Fermentation Symposium" is enzyme technology. Enzyme technology could be simply defined as the scientific study of proteinaceous catalysts derived from living organisms and the application of the knowledge to solve specific problems. The scope of the application of enzyme technology ranges from medical to industrial uses and in the future even living organisms as a source of enzymes may be replaced by fully synthetic enzymes - "synzymes". Although enzyme technology still remains a particular field of biotechnology, the extremely rapid rate of expansion and the enormous increase in the diversifica tion of all aspects of enzyme technology during the immediate past has created a certain tendency to separate biotechnology and enzyme technology from each other. Certainly, those areas of biotechnology characterized by astounding advances are enzyme technology, bioreactor development and genetic manipula tion as related to biotechnological processes. However, a glance at many of the common problems of biotechnology and enzyme technology such as diffusion barriers, reactor design, mass transport, substrate or product inhibition pheno mena and the effect of physical-chemical parameters on process kinetics reveals that these two fields are inseparable with respect to research and application.