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This volume grew out of a symposium organized by the students of Professor Myron L. Bender. His research focused on the mechanisms of enzymatic catalysis and was instrumental in showing that enzymes do not possess magical powers to accelerate reactions a trillion times on an average, but follow simple rules of chemistry. A group of scientists who were trained by Bender have contributed some of their work to this book to pay homage to their mentor. The range of topics covered is such that researchers and industry with interest in biological chemistry will gain knowledge from the advances being made in related fields. The book shows organic chemists what advances have taken place in biological chemistry and biochemists will discover how principles of organic chemistry can be applied to reveal the powers of enzymatic catalysis.
Springer Advanced Texts in Chemistry New textbooks at all levels of chemistry appear with great regularity. Some fields like basic biochemistry, organic reaction mechanisms, and chemical ther modynamics are well represented by many excellent texts, and new or revised editions are published sufficiently often to keep up with progress in research. However, some areas of chemistry, especially many of those taught at the graduate level, suffer from a real lack of up-to-date textbooks. The most serious needs occur in fields that are rapidly changing. Textbooks in these subjects usually have to be written by scientists actually involved in the research which is advancing the field. It is not often easy to persuade such individuals to set time aside to help spread the knowledge they have accumulated. Our goal, in this series, is to pinpoint areas of chemistry where recent progress has outpaced what is covered in any available textbooks, and then seek out and persuade experts in these fields to produce relatively concise but instructive introductions to their fields. These should serve the needs of one semester or one quarter graduate courses in chemistry and biochemistry. In some cases the availability of texts in active research areas should help stimulate the creation of new courses. New York, New York CHARLES R.
Authored by one of the world's leading organic chemists, this authoritative reference provides an overview of basic strategies in directed evolution and introduces common gene mutagenesis, screening and selection methods. Throughout the text, emphasis is placed on methodology development to maximize efficiency, reliability and speed of the experiments and to provide guidelines for efficient protein engineering. Professor Reetz highlights the application of directed evolution experiments to address limitations in the field of enzyme selectivity, substrate scope, activity and robustness. He critically reviews recent developments and case studies, takes a look at future applications in the field of organic synthesis, and concludes with lessons learned from previous experiments.
Enzymes are giant macromolecules which catalyse biochemical reactions. They are remarkable in many ways. Their three-dimensional structures are highly complex, yet they are formed by spontaneous folding of a linear polypeptide chain. Their catalytic properties are far more impressive than synthetic catalysts which operate under more extreme conditions. Each enzyme catalyses a single chemical reaction on a particular chemical substrate with very high enantioselectivity and enantiospecificity at rates which approach “catalytic perfection”. Living cells are capable of carrying out a huge repertoire of enzyme-catalysed chemical reactions, some of which have little or no precedent in organic chemistry. The popular textbook Introduction to Enzyme and Coenzyme Chemistry has been thoroughly updated to include information on the most recent advances in our understanding of enzyme action, with additional recent examples from the literature used to illustrate key points. A major new feature is the inclusion of two-colour figures, and the addition of over 40 new figures of the active sites of enzymes discussed in the text, in order to illustrate the interplay between enzyme structure and function. This new edition provides a concise but comprehensive account from the perspective of organic chemistry, what enzymes are, how they work, and how they catalyse many of the major classes of enzymatic reactions, and will continue to prove invaluable to both undergraduate and postgraduate students of organic, bio-organic and medicinal chemistry, chemical biology, biochemistry and biotechnology.
The synergy between synthetic biology and biocatalysis is emerging as an important trend for future sustainable processes. This book reviews all modern and novel techniques successfully implemented in biocatalysis, in an effort to provide better performing enzymatic systems and novel biosynthetic routes to (non-)natural products. This includes the use of molecular techniques in protein design and engineering, construction of artificial metabolic pathways, and application of computational methods for enzyme discovery and design. Stress is placed on current ‘hot’ topics in biocatalysis, where recent advances in research are defining new grounds in enzyme-catalyzed processes. With contributions from leading academics around the world, this book makes a ground-breaking contribution to this progressive field and is essential reading for graduates and researchers investigating (bio)catalysis, enzyme engineering, chemical biology, and synthetic biology.
Intended for advanced undergraduates and graduate students in all areas of biochemistry, The Organic Chemistry of Biological Pathways provides an accurate treatment of the major biochemical pathways from the perspective of mechanistic organic chemistry.
From the series covering all aspects of the chemistry of one of the important groups in organic chemistry, this volume concentrates on the chemistry of enols.
The remarkable expansion of information leading to a deeper understanding of enzymes on the molecular level necessitated the development of this volume which not only introduces new topics to The Enzymes series but presents new information on some covered in Volume I and II of this edition.
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Bioorganic and Enzymatic Catalysis Direct comparison of enzymatic reactions and corresponding catalytic transformations in the laboratory Bioorganic and Enzymatic Catalysis covers the most important enzymatic reactions and related catalytic bioorganic reactions using a new approach: Each enzymatic reaction type is compared with organocatalytic, organometallic and other alternative reactions, allowing the reader to understand catalytic reactions in a much-integrated way. For example, in a chapter that describes aldolases corresponding reactions using catalytic antibodies, organocatalytic reagents and metal complexes are discussed. Written by a well-known expert in the field with more than 30 years of experience in organic and bioorganic chemistry, Bioorganic and Enzymatic Catalysis covers sample topics such as: Enzymatic C-C bond formation using aldolases Claisen-type C-C bond formation involving fatty acid synthases and polyketide synthases Biomimetic cyclisations involving carbenium ions Enzymatic oxidation and C-H activation Dioxygenases and oxidoreductases With its unique approach, Bioorganic and Enzymatic Catalysis is a valuable source of information for professionals and researchers in academia and industry as well as graduate and PhD students working in the fields of organic chemistry, biochemistry, and life sciences.