Detection of conformational changes in actin by proteolytic digestion: Evidence for a new monomeric species |
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Authors: | Steven A Rich James E Estes |
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Institution: | Department of Biology Rensselaer Polytechnic Institute Troy, N.Y. 12181, U.S.A. |
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Abstract: | When KCl is added to a solution of G-actin to induce full polymerization, a decrease in the rate at which actin undergoes enzymatic proteolysis occurs. This decrease cannot be accounted for by factors affecting the enzymes employed, but rather appears to be due to a change in the conformation of G-actin. Partially polymerized actin solutions also show a reduction in digestibility which is dependent on the F-actin content, suggesting that F-actin is essentially indigestible. Moreover, low rates of digestion were also observed at sub-critical actin concentrations, where actin in the presence of 0.1 m-KCl does not polymerize. This indicates that a confomational change occurs in G-actin before the polymerization step.At sub-critical concentrations in 0.1 m-KCl, actin is in a truly monomeric state as judged by its viscosity characteristics, its inability to enhance the rate of polymerization of G-actin and its possession of ATP as the actin-bound nucleotide. These data support the existence of a new species of actin, called F-ATP-actin monomer, which has the same physical properties and the same bound nucleotide as G-actin, but digestion characteristics like F-actin. Since F-ATP-actin monomers have the same low susceptibility to proteolysis as F-ADP-actin polymers, and because both G-ATP-actin and G-ADP-actin have similar high rates of digestion, the observed change in the conformation of actin cannot be due to the phosphorylated state of the actin-bound nucleotide. Instead, the conformational change appears to be caused by the addition of KCl to G-actin.The newly-detected monomeric species is considered to be an intermediate in the polymerization process where F-ATP-actin monomers form a population of polymerizable molecules which must reach a critical concentration before nucleation and F-actin polymer formation begin. |
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