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The kinetics of mechanically coupled myosins exhibit group size-dependent regimes.


ABSTRACT: Naturally occurring groups of muscle myosin behave differently from individual myosins or small groups commonly assayed in vitro. Here, we investigate the emergence of myosin group behavior with increasing myosin group size. Assuming the number of myosin binding sites (N) is proportional to actin length (L) (N = L/35.5 nm), we resolve in vitro motility of actin propelled by skeletal muscle myosin for L = 0.2-3 ?m. Three distinct regimes were found: L < 0.3 ?m, sliding arrest; 0.3 ?m ? L ? 1 ?m, alternation between arrest and continuous sliding; L > 1 ?m, continuous sliding. We theoretically investigated the myosin group kinetics with mechanical coupling via actin. We find rapid actin sliding steps driven by power-stroke cascades supported by postpower-stroke myosins, and phases without actin sliding caused by prepower-stroke myosin buildup. The three regimes are explained: N = 8, rare cascades; N = 15, cascade bursts; N = 35, continuous cascading. Two saddle-node bifurcations occur for increasing N (mono ? bi ? mono-stability), with steady states corresponding to arrest and continuous cascading. The experimentally measured dependence of actin sliding statistics on L and myosin concentration is correctly predicted.

SUBMITTER: Hilbert L 

PROVIDER: S-EPMC3785894 | biostudies-other | 2013 Sep

REPOSITORIES: biostudies-other

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The kinetics of mechanically coupled myosins exhibit group size-dependent regimes.

Hilbert Lennart L   Cumarasamy Shivaram S   Zitouni Nedjma B NB   Mackey Michael C MC   Lauzon Anne-Marie AM  

Biophysical journal 20130901 6


Naturally occurring groups of muscle myosin behave differently from individual myosins or small groups commonly assayed in vitro. Here, we investigate the emergence of myosin group behavior with increasing myosin group size. Assuming the number of myosin binding sites (N) is proportional to actin length (L) (N = L/35.5 nm), we resolve in vitro motility of actin propelled by skeletal muscle myosin for L = 0.2-3 μm. Three distinct regimes were found: L < 0.3 μm, sliding arrest; 0.3 μm ≤ L ≤ 1 μm,  ...[more]

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