Direct visualization of myosin-binding protein C bridging myosin and actin filaments in intact muscle
Proceedings of the National Academy of Sciences, 2011•National Acad Sciences
Myosin-binding protein C (MyBP-C) is a thick filament protein playing an essential role in
muscle contraction, and MyBP-C mutations cause heart and skeletal muscle disease in
millions worldwide. Despite its discovery 40 y ago, the mechanism of MyBP-C function
remains unknown. In vitro studies suggest that MyBP-C could regulate contraction in a
unique way—by bridging thick and thin filaments—but there has been no evidence for this in
vivo. Here we use electron tomography of exceptionally well preserved muscle to …
muscle contraction, and MyBP-C mutations cause heart and skeletal muscle disease in
millions worldwide. Despite its discovery 40 y ago, the mechanism of MyBP-C function
remains unknown. In vitro studies suggest that MyBP-C could regulate contraction in a
unique way—by bridging thick and thin filaments—but there has been no evidence for this in
vivo. Here we use electron tomography of exceptionally well preserved muscle to …
Myosin-binding protein C (MyBP-C) is a thick filament protein playing an essential role in muscle contraction, and MyBP-C mutations cause heart and skeletal muscle disease in millions worldwide. Despite its discovery 40 y ago, the mechanism of MyBP-C function remains unknown. In vitro studies suggest that MyBP-C could regulate contraction in a unique way—by bridging thick and thin filaments—but there has been no evidence for this in vivo. Here we use electron tomography of exceptionally well preserved muscle to demonstrate that MyBP-C does indeed bind to actin in intact muscle. This binding implies a physical mechanism for communicating the relative sliding between thick and thin filaments that does not involve myosin and which could modulate the contractile process.
National Acad Sciences
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