Handbook of Biotransformations of Aromatic Compounds
Auteur : Goodwin B.L.
Understanding the biotransformations of aromatic compounds and how they metabolize in animals, plants, and microbes, is central to the applications in a wide range of industries, such as the design and testing of natural and synthetic pharmaceuticals, oil refining, the development of agrochemicals, bioremediation, and for use in functional genomics and xenobiotics.
Presenting the most complete resource of its kind, the Handbook of Biotransformations of Aromatic Compounds examines 20,000 aromatic compounds researched since 1972, and assembled from all the major, relevant journals. The author focuses his coverage on the biotransformation in animals, plants, and microbes while remaining within the scope of aromatic compounds that contain, or are fused with, at least one aromatic C6 ring. Part One lists each compound alphabetically along with the forward and reverse mechanisms of its metabolism in specific organisms. Part Two characterizes the different types of organic reactions that have been identified - including formation and degradation, oxidations and reductions, substitution, and transfer reactions - and the enzymes associated with those reactions. The author cites selected references for enzymes that are well documented while filling in the details for those with little research literature. This book also contains a searchable CD-ROM of the author's previous work covering aromatic compounds researched from 1900 through 1972.
Presenting the most complete resource of its kind, this well-established author draws on his firsthand knowledge to organize a large body of information into a user-friendly and indispensable handbook for professionals, policymakers, and researchers alike.
Date de parution : 11-2004
Ouvrage de 2128 p.
18.9x24.6 cm
Thèmes de Handbook of Biotransformations of Aromatic Compounds :
Mots-clés :
Isovanillic Acid; optimum; Rabbit A2234; molecular; Indole-3 Pyruvic Acid; weight; Propionyl CoA; monomeric; Guinea Pig A1021; rabbit; Rat J150; a280; Optimum pH; man; Man J170; b75; Dog J146; rat; Rat H941; j321; Mouse A1536; Man H469; Man B309; Pig A1021; Beef A1029; Dog D352; Caffeoyl CoA; Monomeric Molecular Weight; Cinnamoyl CoA; Pseudomonas A3030; Man K128; Rabbit E886; Streptomyces B877; Pseudomonas E567; Mouse G564