The substructure of the thick filaments of chemically skinned chicken pectoralis muscle was investigated by electron microscopy. Images of transverse sections of the myosin filaments were determined to have threefold symmetry by cross-correlation analysis, which gives an unbiased determination of the rotational symmetry of the images. Resolution, using the phase residual test (Frank et al. 1981. Science [Wash. DC]. 214:1353–1355), was found to be between 3.2 and 3.6 nm. Three arrangements of nine subfilaments in the backbone were found in all regions of the filament at ionic strengths of 20 and 200 mM. In the average images of two of these, there were three dense central subfilaments and three pairs of subfilaments on the surface of the thi...
Changes in the molecular structure of striated muscle during contraction can be determined owing to ...
Synthetic filaments prepared from column-purified rabbit skeletal myosin by slow dialysis exhibit ch...
For the purpose of determining net interactions between actin and myosin filaments in muscle cells, ...
The thick (myosin-containing) filaments of vertebrate skeletal muscle are arranged in a hexagonal la...
Transverse sections (approximately 140 nm thick) of solid myosin filaments of the flight muscles of ...
The in vivo structure of the myosin filaments in vertebrate smooth muscle is unknown. Evidence from ...
Myosin filaments in vertebrate striated muscle have a long roughly cylindrical backbone with cross-b...
AbstractElectron microscopy has shown that cross-bridges (CBs) are formed at the target zone that is...
We show that negative-stain electron microscopy and image processing of nucleotide-free (apo) striat...
The strongest myosin-related features in the low-angle axial x-ray diffraction pattern of resting fr...
Detailed structural analysis of muscles normally used to study myosin cross-bridge behavior (e.g., f...
During contraction, the molecular arrangement within muscle undergoes large changes which can be tra...
AbstractThe rods of anti-parallel myosin molecules overlap at the centre of bipolar myosin filaments...
AbstractWe show that negative-stain electron microscopy and image processing of nucleotide-free (apo...
AbstractCardiac muscle has been extensively studied, but little information is available on the deta...
Changes in the molecular structure of striated muscle during contraction can be determined owing to ...
Synthetic filaments prepared from column-purified rabbit skeletal myosin by slow dialysis exhibit ch...
For the purpose of determining net interactions between actin and myosin filaments in muscle cells, ...
The thick (myosin-containing) filaments of vertebrate skeletal muscle are arranged in a hexagonal la...
Transverse sections (approximately 140 nm thick) of solid myosin filaments of the flight muscles of ...
The in vivo structure of the myosin filaments in vertebrate smooth muscle is unknown. Evidence from ...
Myosin filaments in vertebrate striated muscle have a long roughly cylindrical backbone with cross-b...
AbstractElectron microscopy has shown that cross-bridges (CBs) are formed at the target zone that is...
We show that negative-stain electron microscopy and image processing of nucleotide-free (apo) striat...
The strongest myosin-related features in the low-angle axial x-ray diffraction pattern of resting fr...
Detailed structural analysis of muscles normally used to study myosin cross-bridge behavior (e.g., f...
During contraction, the molecular arrangement within muscle undergoes large changes which can be tra...
AbstractThe rods of anti-parallel myosin molecules overlap at the centre of bipolar myosin filaments...
AbstractWe show that negative-stain electron microscopy and image processing of nucleotide-free (apo...
AbstractCardiac muscle has been extensively studied, but little information is available on the deta...
Changes in the molecular structure of striated muscle during contraction can be determined owing to ...
Synthetic filaments prepared from column-purified rabbit skeletal myosin by slow dialysis exhibit ch...
For the purpose of determining net interactions between actin and myosin filaments in muscle cells, ...