Regulatory and essential light-chain interactions in scallop myosin. I. Protection of essential light-chain thiol groups by regulatory light-chains

The reactivity of the thiol groups of the essential light-chains of scallop myosin is greatly reduced by the presence of regulatory light-chains on myosin. The thiol groups of the essential light-chains react with iodoacetate only if the regulatory light-chains have been removed by treatment with EDTA. No alkylation of the essential light-chains could be detected in myosins containing regulatory light-chains (untreated or reconstituted myosins) after an overnight incubation with excess iodoacetate at 4 °C. In contrast, similar treatment alkylated two to three thiol groups of essential light-chains in desensitized myosins from which the regulatory light-chains had been removed. In addition, up to seven of the 20 heavy-chain thiols were also alkylated; however, the reactivity of the heavy-chain thiols did not depend on the presence of the regulatory light-chains. ATPase activities were not inhibited by alkylation with iodoacetate. Regulatory light-chains also protected essential light-chain thiols against reaction with N-iodoacetyl-N^′-(l-sulfo-5-naphthyl) ethylenediamine and against dansylation at pH 6.7, although treatment with these reagents caused a considerable loss of ATPase activities. Rebinding of the regulatory light-chains was impaired by alkylation. The results indicate an extensive interaction between the regulatory and the essential light-chains in scallop myosin.