Kinetic mechanism of allosteric regulation of muscle glycogen phosphorylase B by adenosine 5'-monophosphate.

Kinetic analysis of the glycogen chain growth reaction catalyzed by glycogen phosphorylase b from rabbit skeletal muscle has been carried out over a wide range of AMP concentration under the saturation of the enzyme by glycogen. Applicability of some variants of the kinetic model involving the interaction of AMP- and glucose 1-phosphate-binding sites in the dimeric enzyme molecule is considered. A kinetic model of the enzymatic reaction describing adequately the activation of the enzyme by AMP and inhibition at sufficiently high concentrations of AMP is proposed.

Combined kinetic mechanism describing activation and inhibition of muscle glycogen phosphorylase b by adenosine 5'-monophosphate.

The kinetic analysis of the glycogen chain growth reaction catalyzed by glycogen phosphorylase b from rabbit skeletal muscle has been carried out over a wide range of concentrations of AMP under the saturation of the enzyme by glycogen. The applicability of 23 different variants of the kinetic model involving the interaction of AMP and glucose 1-phosphate binding sites in the dimeric enzyme molecule is considered. A kinetic model has been proposed which assumes: (i) the independent binding of one molecule of glucose 1-phosphate in the catalytic site on the one hand, and AMP in both allosteric effector sites and both nucleoside inhibitor sites of the dimeric enzyme molecule bound by glycogen on the other hand; (ii) the binding of AMP in one of the allosteric effector sites results in an increase in the affinity of other allosteric effector site to AMP; (iii) the independent binding of AMP to the nucleoside inhibitor sites of the dimeric enzyme molecule; (iv) the exclusive binding of the second molecule of glucose 1-phosphate in the catalytic site of glycogen phosphorylase b containing two molecules of AMP occupying both allosteric effector sites; and (v) the catalytic act occurs exclusively in the complex of the enzyme with glycogen, two molecules of AMP occupying both allosteric effector sites, and two molecules of glucose 1-phosphate occupying both catalytic sites.

Slow step in activation of muscle glycogen phosphorylase b by adenosine 5'-monophosphate.

The incubation of glycogen phosphorylase b from rabbit skeletal muscles with the allosteric activator (AMP) for 10-15 min has been found to result in an additional increase in the initial rate of the enzymatic reaction (v) as compared with the corresponding value of v measured by the initiation of the enzymatic reaction by the addition of a mixture of glucose 1-phosphate and AMP (0.02 M HEPES, pH 6.8; 37 degrees C).

Specificity of inhibition of muscle glycogen phosphorylase b by flavins.

The inhibition of glycogen phosphorylase b from rabbit skeletal muscles by the derivatives of riboflavin, FMN, FAD, and 2', 3', 4', 5'-tetraacetylriboflavin substituted in positions 6 and 8 of the isoalloxazine part of the flavin molecule is found to be cooperative (the Hill coefficient, h, exceeds 1.0). The modification of the flavin molecule slightly changes the value of the Hill coefficient, but results in the increase of the "half-saturation" concentration [I]0.