Conservation of the regulated structure of folded myosin 2 in species separated by at least 600 million years of independent evolution
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Date
2008-04-22
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Authors
Jung, Hyun Suk
Burgess, Stan A.
Billington, Neil
Colegrave, Melanie
Patel, Hitesh
Chalovich, Joseph
Chantler, Peter D.
Knight, Peter J.
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East Carolina University
Abstract
The myosin 2 family of molecular motors includes isoforms regulated
in different ways. Vertebrate smooth-muscle myosin is activated by phosphorylation of the regulatory light chain, whereas scallop striated adductor-muscle myosin is activated by direct calcium binding to its essential light chain. The paired heads of inhibited molecules from myosins regulated by phosphorylation have an asymmetric arrangement with motor–motor interactions. It was unknown whether such interactions were a common motif for inactivation used in other forms of myosin-linked regulation. Using electron microscopy and single-particle image processing, we show that indistinguishable structures are indeed found in myosins and heavy meromyosins isolated from scallop striated adductor muscle and turkey gizzard smooth muscle. The similarities extend beyond the shapes of the heads and interactions between them: In both myosins, the tail folds into three segments, apparently at identical sites; all three segments are in close association outside the head region; and two segments are associated in the same way with one head in the asymmetric arrangement. Thus, these organisms, which have different regulatory mechanisms and diverged from a common ancestor >600 Myr ago, have the same quaternary structure. Conservation across such a large
evolutionary distance suggests that this conformation is of fundamental
functional importance. Proceedings of the National Academy of Science, Vol. 105, No. 16, Apr 2008
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Proceedings of the National Academy of Science; 105:16 p. 6022-6026
DOI
10.1073/pnas.0707846105