Enzymes in synthetic organic chemistry
著者
書誌事項
Enzymes in synthetic organic chemistry
(Tetrahedron organic chemistry series, v. 12)
Pergamon, 1994
- : hard
- : pbk
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注記
Includes bibliographical references and index
内容説明・目次
- 巻冊次
-
: pbk ISBN 9780080359410
内容説明
This book covers the most recent development of enzymatic organic synthesis, with particular focus on the use of isolated enzymes. It is organized into one introductory chapter dealing with the characteristics of enzymes as catalysts, and five chapters dealing with different types of chemical transformations. Methods for enzyme immobilization and stabilizaton, the use of enzymes in extreme environments, and the alteration of enzyme properties by chemical modification and site-directed mutagenesis for synthetic purposes are covered.
目次
Chapter headings: General Aspects. Use of Hydrolytic Enzymes: Amidases, Proteases, Esterases, Lipases, Nitrilases, Phosphatases, Epoxide Hydrolases. Oxidoreductions. C-C Bond Formation. Synthesis of Glycoside Bonds. Addition, Elimination and Other Group Transfer Reactions (Phosphoryl-, Methyl-, Sulpho- and Amino-Transfer Reactions).
- 巻冊次
-
: hard ISBN 9780080359427
内容説明
This work covers the most recent development of enzymatic organic synthesis, with particular focus on the use of isolated enzymes. It is organized into one introductory chapter dealing with the characteristics of enzymes as catalysts, and five chapters dealing with different types of chemical transformations. Methods for enzyme immobilization and stabilization, the use of enzymes in extreme environments, and the alteration of enzyme properties by chemical modification and site-directed mutagenesis for synthetic purposes are covered.
目次
- Part 1 General aspects: rate acceleration in enzyme-catalyzed reactions
- Michaelis-Menten kinetics
- enzyme inhibition
- specificity
- improvement or alteration of enzyme specifity
- enzyme stabilization and reactor configuration
- cofactor regeneration
- enzyme catalysis in organic solvents
- multienzyme systems and metabolic engineering
- rational design of new enzymatic catalysts
- references. Part 2 Use of hydrolytic enzymes - amidases, proteases, esterases, lipases, nitrilases, phosphatases, epoxide hydrolases: amidases
- protease-catalyzed peptide synthesis
- proteases that act as esterases
- acetylcholine esterase
- pig liver esterase
- phospholipases
- cholesterol esterase
- lipases
- nitrile hydrolysis enzymes
- epoxide hydrolase
- phosphatase
- references. Part 3 Oxidoreductions: nicotinamide cofactor dependent oxidoreductions
- dehydrogenases which utilize ketoacids as substrates
- other NAD(P)-dependent dehydrogenases
- oxidoreductases that are metalloenzymes
- references. Part 4 C-C bond formation: aldol condensation
- ketol and aldol transfer reaction
- addition of HCN to aldehydes
- acyloin condensation
- C-C bond forming reactions involving acetyl coA
- isoprenoid and steroid synthesis
- replacement of chloroalanine
- C-C bond formation catalyzed by vitamin B[12]
- references. Part 5 Synthesis of glycoside bonds: background
- glycosyltransferases of the Leloir pathway
- substrate specificity and synthetic applications of glycosyltransferases
- non-leloir glycosyltransferases
- glycosidases
- transglycosidases
- synthesis of N-glycosides
- biological applications of synthetic glycoconjugates
- future opportunities
- references. Part 6 Addition, elimination and other group transfer reactions (phosphoryl-, methyl-,sulpho-and amino-transfer reactions): addition of water to alkenes - fumarase
- addition of ammonia to double bonds - ammonia lyases
- transamination - aminotransferases
- addition and elimination of carboxyl group
- nucleoside triphosphate requiring enzymatic reactions
- preparation of ATP chiral at -, - or - phosphorous
- phosphorothioate-containing DNA and RNA
- DNA and RNA oligomers
- incorporation of modified or unnatural bases into DNA or RNA
- dehalogenation
- synthesis of chiral methyl groups
- S-adenosylmethionine and transmethylation
- sulfate activation and transfer reactions.
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