Anomalous electrophoretic behavior of creatine kinase: A thiol-dependent isomeric system with migration subject to kinetic control

Moving boundary electrophoresis of creatine kinase in 0.1 I diethylbarbiturate buffer, pH 8.9, has yielded anomalous migration behavior that indicates intereonversion between two coexisting states of the enzyme at a rate comparable with the rate at which the two enzymic forms tend to separate by differential migration. Whereas a single, symmetrical boundary is observed in the ascending limb, distinct bimodality of the descending pattern is evident in electrophoresis of enzyme isolated from skeletal muscle of either rabbit or fish (Mugil cephalus): pronounced changes in the nature of this bimodality with time are observed in the case of fish muscle creatine kinase. The abnormal migration behavior is eliminated by inclusion of dithiothreitol in the electrophoresis medium or by covalent modification of the enzyme with 5,5′-dithiobis(2-nitrobenzoic acid). Velocity and equilibrium sedimentation studies have been used to identify the macromolecular event as an isomerization, and studies of sulfhydryl content to implicate either reversible sulfhydryl oxidation or thiol-disulfide interchange in the isomerization mechanism.