Studies on medium-chain fatty acyl-coenzyme A synthetase. Enzyme fraction I: mechanism of reaction and allosteric properties

1. The mechanism of butyrate activation catalysed by an enzyme fraction derived from ox liver particles (fraction I; Bar-Tana, Rose & Shapiro, 1968) was studied by an analysis of the initial-velocity pattern of the overall reaction and found to conform to the Bi Uni Uni Bi Ping Pong model (Cleland, 1963a,b,c) in agreement with the reaction scheme proposed by Berg (1956). 2. A homotropic co-operative effect was exerted by CoA on fraction I, whereas ATP and AMP functioned as heterotropic co-operative ligands with respect to butyryl-AMP-dependent CoA disappearance. On the other hand, PP_i and butyryl-CoA showed antagonistic heterotropic effects when tested under similar conditions. With respect to the overall reaction CoA and ATP could be shown to function as co-operative homotropic modifiers. 3. Two interchangeable conformational states of the enzyme are therefore presumed to exist, state R, having a higher affinity for CoA and ATP and thus preferentially catalysing butyryl-AMP-dependent CoA disappearance (partial reaction b), and state T, favoured by the presence of PP_i, catalysing the formation of ATP from butyryl-AMP and PP_i (partial reaction a) with greater efficiency. 4. These findings serve to explain the opposite effects of ATP on the partial reactions, as well as the inhibition by CoA and ATP of ATP formation (reaction a) and by PP_i of the butyryl-AMP-dependent CoA disappearance (reaction b) (Bar-Tana et al. 1968). 5. The possible analogy of these observations to amino acid-activating and other similar systems is discussed.