Abstract
The aminolysis of the depsipeptide m-[[(phenylacetyl)glycyl]oxy]benzoic acid (1) by D-phenylalanine, catalyzed by the beta-lactamase of Enterobacter cloacae P99, is inhibited by the product of the reaction, (phenylacetyl)glycyl-D-phenylalanine (2), by the peptide analogue of 1, m-[(phenylacetyl)-glycinamido]benzoic acid (3), and by (3-dansylamidophenyl)boronic acid. Analysis of the steady-state kinetics of the effect of 2 and 3 on the reaction indicated that both a competitive binding mode and a noncompetitive binding mode existed for each peptide. Thus, there probably are two distinct binding sites (sites 1 and 2) that 2 and 3, and by implication 1, are able to simultaneously occupy on the enzyme surface. Given this information, it was possible to devise a new kinetic mechanism for the aminolysis reaction which yielded the experimentally observed empirical rate equation [Pazhanisamy, S., Govardhan, C. P., & Pratt, R. F. (1989) Biochemistry (first of three papers in this issue)] but did not involve initial binding of D-phenylalanine to the free enzyme, which has been shown not to occur [Pazhanisamy, S., & Pratt, R. F. (1989) Biochemistry (second of three papers in this issue)]. The mechanism requires two different 1:1 enzyme/1 complexes, only one of which leads to the hydrolysis and aminolysis reactions (1 in site 1), and a 1:2 enzyme/1 complex (1 in both sites), which leads only to hydrolysis. The dansyl boronate inhibits by binding competitively with 1 in site 1. It is suggested that this scheme also applies to the analogous transpeptidase reactions of small model peptides catalyzed by the bacterial cell wall DD-peptidases, where similar steady-state kinetics have been observed.(ABSTRACT TRUNCATED AT 250 WORDS)
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