The first-order rate constant of nucleotide exchange between epsilonATP and ATP in actin strongly depends on ATP and Ca2+ concentrations, with an Arrhenius plot showing a sharp bend near 24 degrees C.
1: N6-Ethenoadenosine 5'-triphosphate (epsilonATP) vs ATP
Kinetics of nucleotide exchange
1: N6-Ethenoadenosine 5'-triphosphate (epsilonATP), a fluorescent analog of ATP, binds to monomeric actin with a binding constant which is only about 5 times smaller than that of ATP. The spectroscopic changes which occur when epsilonATP binds to actin are studied and used to monitor the kinetics of nucleotide exchange. The first-order rate constant which is measured at a large excess of ATP over epsilonATP strongly depends on the ATP and Ca+ concentrations. This finding is explained by a mechanism in which the nucleotide dissociates much more easily from Ca2+-free than from Ca2+-bound actin. Of special interest is the temperature dependence of the dissociation rate constant. The Arrhenius plot shows a sharp bend near 24 degrees C.
Building similarity graph...
Analyzing shared references across papers
Loading...
Felix Waechter
Syngenta (Switzerland)
Juergen Engel
University of Basel
European Journal of Biochemistry
University of Basel
Building similarity graph...
Analyzing shared references across papers
Loading...
Waechter et al. (Mon,) reported a other. 1: N6-Ethenoadenosine 5'-triphosphate (epsilonATP) vs. ATP was evaluated on Kinetics of nucleotide exchange. The first-order rate constant of nucleotide exchange between epsilonATP and ATP in actin strongly depends on ATP and Ca2+ concentrations, with an Arrhenius plot showing a sharp bend near 24 degrees C.
synapsesocial.com/papers/6a0cd94532b1e5fd57fc0519 — DOI: https://doi.org/10.1111/j.1432-1033.1975.tb02320.x