Sulfhydryl group reactivity in the Escherichia coli CoA transferase

Abstract

The acetyl-CoA:acetoacetate CoA-transferase of Escherichia coli has the subunit structure α 2 β 2 The enzyme contains six sulfhydryl groups, one per α chain and two per β chain, and no disulfides. The rates and extent of sulfhydryl group reactivity with 5,5′-dithiobis(2-nitrobenzoic acid) were compared in the free enzyme, the enzyme-CoA intermediate in the catalytic pathway, and a substrate analog-enzyme Michaelis complex. The analog used was acetylaminodesthio-CoA, a competitive inhibitor with respect to acetyl-CoA; the analog is not a substrate. The reactions were studied in the presence and absence of 10% glycerol. In the absence of glycerol, one sulfhydryl group reacted rapidly in the free enzyme and enzyme-CoA intermediate; relative to the free enzyme, the rate and number of subsequently reacting sulfhydryl groups were increased in the enzyme-CoA intermediate. In the presence of 10% glycerol, one sulfhydryl group reacted rapidly in the free enzyme, while two reacted rapidly in the enzyme-CoA compound; the rates and extents of subsequently reacting sulfhydryl groups were also enhanced in the enzyme-CoA compound. The data strongly suggested subunit interactions in the free enzyme and intermediate; glycerol abolished those interactions in the enzyme-CoA intermediate. In the absence of glycerol, sulfhydryl group reactivity in the Michaelis complex, enzyme-acetylaminodesthio-CoA, was similar to that in the free enzyme with one exception: One of the more slowly reacting sulfhydryl groups in the free enzyme reacted at a rate characteristic of the enzyme-CoA intermediate. The results obtained with N-ethylmaleimide were qualitatively similar. The fractional inactivation of the enzyme with N-ethylmaleimide as a function of sulfhydryl groups modified and the subunit location of those sulfhydryl groups indicated that the same sulfhydryl groups react in both enzyme species; however, those sulfhydryl groups reacted more rapidly in the enzyme-CoA compound. The data indicate both subunit interactions in the enzyme and characteristic conformational changes upon formation of an acyl-CoA-enzyme Michaelis complex and the enzyme-CoA intermediate.