Substrate-induced conformational changes and half-the-sites reactivity in the Escherichia coli CoA transferase.

The acetyl-CoA:acetoacetate CoA-transferase of Escherichia coli undergoes two detectable conformational changes during catalysis of CoA transfer. The first change occurs upon binding of at least the CoA moiety of an acyl-CoA substrate and was detected by fluorescence enhancement of enzyme-bound 8-anilino-1-naphthalenesulfonate and microcomplement fixation upon formation of a noncovalent enzyme · CoA complex. CoA is a competitive inhibitor with respect to acyl-CoA substrate (K_i = 0.29 mM). A second, more extensive conformational change occurs upon formation of the covalent enzyme-CoA intermediate and was detected by fluorescence enhancement of enzymebound 8-anilino-1-naphthalenesulfonate, sedimentation of the intermediate in sucrose density gradients, and microcomplement fixation. The data clearly differentiated between the three distinct forms of the enzyme, i.e., free enzyme, noncovalent enzyme·CoA complex, and covalent enzyme-CoA intermediate. The data are consistent with a model in which the enzyme opens upon formation of the enzyme-CoA intermediate. Either the limited conformational change or the extensive conformational change generates subunit interactions which result in half-the-sites reactivity in the enzyme. Only one of the two potential active sites was charged with etheno-CoA when the enzyme was reacted with etheno-acetyl-CoA. Glycerol abolished the extreme negative cooperativity and both active sites were charged with etheno-CoA in the presence of 10% glycerol. Our data suggest that glycerol abolished subunit interactions in either the enzyme-CoA complex or the covalent intermediate and not in the free enzyme.