The divalent metal ion tightly bound to actin interacts with the beta- and gamma-phosphates of ATP in the nucleotide site, supported by the binding behavior of CrATP to G-actin.
Actin biochemistry
CrATP
Competition between Ca2+ and Mg2+ for binding to a single high affinity site on actin has been confirmed. Occupancy of this site only by either Ca2+ or Mg2+ affects the conformation of actin and its ability to form nuclei and hydrolyze ATP. G-actin binds the beta gamma-bidentate CrATP, a substitution inert analog of metal-ATP complexes, and shows a high specificity for the lambda isomers. Binding of CrATP to ADP-actin is accompanied by the dissociation of tightly bound ADP and Ca2+. CrATP-actin shows a high tendency to form nuclei, like MgATP-actin. Polymerization of CrATP-actin is accompanied by cleavage of the gamma-phosphate, but subsequent Pi release cannot occur because the product of the reaction is the stable CrADP-Pi complex. All these results support the view that the divalent metal ion tightly bound to actin interacts with the beta- and gamma-phosphates of ATP in the nucleotide site.
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C. Valentin-Ranc
M F Carlier
Centre National de la Recherche Scientifique
Journal of Biological Chemistry
Centre National de la Recherche Scientifique
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Valentin-Ranc et al. (Fri,) conducted a other in Actin biochemistry. CrATP was evaluated. The divalent metal ion tightly bound to actin interacts with the beta- and gamma-phosphates of ATP in the nucleotide site, supported by the binding behavior of CrATP to G-actin.
synapsesocial.com/papers/6a0cd94332b1e5fd57fc0510 — DOI: https://doi.org/10.1016/s0021-9258(19)30017-1
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