Journal ArticleDOI
Mechanism of allosteric regulation of the Ca,Mg-ATPase of sarcoplasmic reticulum: studies with 5'-adenylyl methylenediphosphate.
TLDR
Four mechanisms for the allosteric regulation of the calcium and magnesium ion activated adenosinetriphosphatase (Ca,Mg-ATPase) of sarcoplasmic reticulum were examined and negative cooperativity in substrate binding was not supported by 3H-labeled 5'-adenylyl methylenediphosphate (AMPPCP) binding.Abstract:
Four mechanisms for the allosteric regulation of the calcium and magnesium ion activated adenosinetriphosphatase (Ca,Mg-ATPase) of sarcoplasmic reticulum were examined. Negative cooperativity in substrate binding was not supported by 3H-labeled 5'-adenylyl methylenediphosphate (AMPPCP) binding, which was best fit by a single class of sites. Although calcium had no effect on the absence of cooperativity, it did increase the affinity of the enzyme for AMPPCP. Allosteric regulation via an effector site for AMPPCP or ATP on the same ATPase chain was eliminated by the stoichiometry of ATP and AMPPCP binding, 1 mol of site per mole of enzyme. The possibility that AMPPCP acts at an effector site was eliminated by showing that it competitively inhibits the rate of phosphoenzyme formation. Allosteric regulation of kinetics via site-site interaction in an oligomer was eliminated by showing that the inhibition of ATPase activity by fluorescein isothiocyanate is linearly dependent upon its incorporation into the sarcoplasmic reticulum. The fourth mechanism considered was stimulation of ATPase activity by the binding of ATP or AMPPCP at the active site after departure of ADP but before the departure of inorganic phosphate. This hypothesis was supported by site stoichiometry and by the observation that AMPPCP or ATP stimulates v/EP, the rate of ATP hydrolysis for a given level of phosphoenzyme. Computer simulation of this branched monomeric model could duplicate all experimental observations made with AMPPCP and ATP as allosteric regulators. The condition that the affinity of ATP binding to the enzyme be reduced when it is phosphorylated, which is required by the computer model, was confirmed experimentally.read more
Citations
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Journal ArticleDOI
Monomer-oligomer equilibrium of sarcoplasmic reticulum Ca-ATPase and the role of subunit interaction in the Ca2+ pump mechanism.
Journal ArticleDOI
ATP regulation of sarcoplasmic reticulum Ca2+-ATPase. Metal-free ATP and 8-bromo-ATP bind with high affinity to the catalytic site of phosphorylated ATPase and accelerate dephosphorylation.
TL;DR: Results show that dephosphorylation, under these conditions, is regulated by ATP but not by Mg, and that the catalytic site is the locus of this "regulatory" ATP binding site.
Journal ArticleDOI
Kinetics of calcium dissociation from its high-affinity transport sites on sarcoplasmic reticulum ATPase
TL;DR: The kinetics of calcium dissociation under the above various conditions were not correlated with the ATPase affinity for calcium deduced from equilibrium measurements under the same conditions, which are consistent with sequential dissociation of calcium from a narrow binding pocket inside which a single calcium ion can move fairly easily.
Journal ArticleDOI
Rapid filtration study of the phosphorylation-dependent dissociation of calcium from transport sites of purified sarcoplasmic reticulum ATPase and ATP modulation of the catalytic cycle.
TL;DR: It is suggested that metal-free ATP is a more potent activator than Mg X ATP for transitions involving phosphoenzyme, and Hydrolysis of the Ca2+-deprived phosphoen enzyme was accelerated by ATP in the absence but not in the presence of Mg2+ in the dephosphorylation medium.
Journal ArticleDOI
pH and magnesium dependence of ATP binding to sarcoplasmic reticulum ATPase. Evidence that the catalytic ATP-binding site consists of two domains.
TL;DR: Results suggest that ATP interacts with two different domains of Ca-ATPase that form the catalytic site that may bind the adenine moiety of the substrate and the pH dependence of ADP binding suggests the participation of His683 in this region.
References
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Journal ArticleDOI
Isolation and characterization of two types of sarcoplasmic reticulum vesicles
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