Advances in Enzymology and Related Areas of Molecular Biology, Volume 73, Part A: Mechanism of Enzyme Action
Daniel L. Purich
John Wiley & Sons, Sep 15, 2009 - Science - 283 pages
Biological catalysis plays a dominant role both in fermentation and industrial process chemistry. This collection of chapters, written by a well-known biochemist and enzymologist, should serve as an invaluable reference to those investigators seeking to optimize the application of enzymatic catalysis for commercial purposes.
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acceptor active site activity adenine adenylate kinase adenylosuccinate adenylosuccinate synthetase amino acid AMPSase analogue Arch Biochem Biophys aspartate Bacteriol binding Biochemistry Biochim Biophys Acta Biol Chem biosynthesis catalysis catalytic power cDNA cells cloned complex concentration crystal structure cystamine cysteine divalent cation domain enzymatic enzyme enzyme-bound enzyme-substrate compound equation Escherichia coli Figure ﬁrst formation Fromm gene glutamate glutamine Grifﬁth GSH levels GSH synthesis hadacidin Huang human hydrogen bonds identiﬁed inactivation inhibition inhibitor interactions isozyme kinetic kynureninase kynurenine L-cysteine L-glutamate ligands loop mammalian mechanism metabolism Mg2+ Michaelis Mildvan mole molecular Mulcahy mutagenesis mutant MutT enzyme NAD+ nicotinamide mononucleotide nicotinic NMN adenylyltransferase NMP kinases nucleotide oxygen pathway phosphate phosphoribosyltransferase phosphoryl protein Puriﬁcation purine pyridine pyridine nucleotide quinolinate rat liver residues role Schulz speciﬁc studies substrate subunit tion transition tumor typhimurium uncatalyzed reactions y-GCS y-GCSh yeast zyme