Abstract
We compared the properties of the nuclei that accumulate in 7.5 mM-KCl in ATP-G-actin solutions and of the oligomers that are formed by sonication of either G-actin or F-actin. We found that the ability of the above species to prime the polymerization of actin decays with different rates. The nuclei are stable in 7.5 mM-KCl (they decay with a rate constant of 1.5 X 10(-3) s -1 at pH 7.8 at 22 degrees C in the absence of KCl). The oligomers formed by sonication of either G-actin or F-actin, once the sonication is stopped, revert to simpler structures or evolve into F-actin, depending on the KCl concentration in which they are kept. In 10.5 mM-KCl at pH 7.8 at 22 degrees C their priming ability decays with a rate constant of 6 X 10(-3) s -1. We propose that the nuclei that form spontaneously in 7.5 mM-KCl are not directly susceptible to elongation. They must first be converted into activated nuclei, which exist in very low concentration at the steady state. The activated nuclei are directly susceptible to elongation, they have a short life and they decay rapidly into the ground state unless the elongation reaction occurs. Sonication displaces the steady-state concentration in favour of the activated state.
Subject
Cell Biology,Molecular Biology,Biochemistry
Cited by
10 articles.
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