1. Structure of the rigor actin-tropomyosin-myosin complex
- Author
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Elmar Behrmann, Pawel A. Penczek, Dietmar J. Manstein, Mirco Müller, Hans Georg Mannherz, and Stefan Raunser
- Subjects
Models, Molecular ,Myosin light-chain kinase ,macromolecular substances ,Tropomyosin ,Biology ,Myosins ,Filamentous actin ,General Biochemistry, Genetics and Molecular Biology ,Article ,03 medical and health sciences ,Myosin head ,Muscular Diseases ,Animals ,Humans ,Muscle, Skeletal ,030304 developmental biology ,0303 health sciences ,Meromyosin ,Biochemistry, Genetics and Molecular Biology(all) ,030302 biochemistry & molecular biology ,Cryoelectron Microscopy ,Actin remodeling ,musculoskeletal system ,Myosin complex ,Actins ,Cell biology ,Multiprotein Complexes ,Myosin binding ,Rabbits ,tissues - Abstract
SummaryRegulation of myosin and filamentous actin interaction by tropomyosin is a central feature of contractile events in muscle and nonmuscle cells. However, little is known about molecular interactions within the complex and the trajectory of tropomyosin movement between its “open” and “closed” positions on the actin filament. Here, we report the 8 Å resolution structure of the rigor (nucleotide-free) actin-tropomyosin-myosin complex determined by cryo-electron microscopy. The pseudoatomic model of the complex, obtained from fitting crystal structures into the map, defines the large interface involving two adjacent actin monomers and one tropomyosin pseudorepeat per myosin contact. Severe forms of hereditary myopathies are linked to mutations that critically perturb this interface. Myosin binding results in a 23 Å shift of tropomyosin along actin. Complex domain motions occur in myosin, but not in actin. Based on our results, we propose a structural model for the tropomyosin-dependent modulation of myosin binding to actin.
- Published
- 2012