Literature DB >> 18805936

Structural dynamics of the actomyosin complex probed by a bifunctional spin label that cross-links SH1 and SH2.

Andrew R Thompson1, Nariman Naber, Clyde Wilson, Roger Cooke, David D Thomas.   

Abstract

We have used a bifunctional spin label (BSL) to cross-link Cys(707) (SH1) and Cys(697) (SH2) in the catalytic domain of myosin subfragment 1 (S1). BSL induces the same weakened ATPase activity and actin-binding affinity that is observed when SH1 and SH2 are cross-linked with pPDM, which traps an analog of the post-hydrolysis state A.M.ADP.P. Electron paramagnetic resonance showed that BSL reports the global orientation and dynamics of S1. When bound to actin in oriented muscle fibers in the absence of ATP, BSL-S1 showed almost complete orientational disorder, as reported previously for the weakly bound A.M.ADP. In contrast, helical order is observed for the strongly bound state A.M. Saturation transfer electron paramagnetic resonance showed that the disorder of cross-linked S1 on actin is nearly static on the microsecond timescale, at least 30 times slower than that of A.M.ADP. We conclude that cross-linked S1 exhibits rotational disorder comparable to that of A.M.ADP, slow rotational mobility comparable to that of A.M, and intermediate actin affinity. These results support the hypothesis that the catalytic domain of myosin is orientationally disordered on actin in a post-hydrolysis state in the early stages of force generation.

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Year:  2008        PMID: 18805936      PMCID: PMC2586570          DOI: 10.1529/biophysj.108.138982

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


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5.  Structural dynamics of actin during active interaction with myosin: different effects of weakly and strongly bound myosin heads.

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  14 in total

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4.  Structural kinetics of myosin by transient time-resolved FRET.

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7.  High-resolution helix orientation in actin-bound myosin determined with a bifunctional spin label.

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