A structural model for the rigor complex of F actin and the myosin head suggests a working hypothesis for the crossbridge cycle driven by ATP hydrolysis.
Muscle contraction
Muscle contraction consists of a cyclical interaction between myosin and actin driven by the concomitant hydrolysis of adenosine triphosphate (ATP). A model for the rigor complex of F actin and the myosin head was obtained by combining the molecular structures of the individual proteins with the low-resolution electron density maps of the complex derived by cryo-electron microscopy and image analysis. The spatial relation between the ATP binding pocket on myosin and the major contact area on actin suggests a working hypothesis for the crossbridge cycle that is consistent with previous independent structural and biochemical studies.
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Ivan Rayment
Heart Failure / Cardiomyopathy
Hazel M. Holden
University of Wisconsin–Madison
Michael Whittaker
Lawrence Berkeley National Laboratory
Science
Scripps Research Institute
Max Planck Institute for Medical Research
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Rayment et al. (Fri,) conducted a other in Muscle contraction. A structural model for the rigor complex of F actin and the myosin head suggests a working hypothesis for the crossbridge cycle driven by ATP hydrolysis.
synapsesocial.com/papers/6a07b4dc44ff8ad339f69c68 — DOI: https://doi.org/10.1126/science.8316858