AbstractThe rods of anti-parallel myosin molecules overlap at the centre of bipolar myosin filaments to produce an M-region (bare zone) that is free of myosin heads. Beyond the M-region edges, myosin molecules aggregate in a parallel fashion to yield the bridge regions of the myosin filaments. Adjacent myosin filaments in striated muscle A-bands are cross-linked by the M-band. Vertebrate striated muscle myosin filaments have a 3-fold rotational symmetry around their long axes. In addition, at the centre of the M-region, there are three 2-fold axes perpendicular to the filament long axis, giving the whole filament dihedral 32-point group symmetry. Here we describe the three-dimensional structure obtained by a single-particle analysis of the ...
X-ray results are presented concerning the structural state of myosin heads of synthetic filaments i...
Striated muscle enables movement in all animals by the contraction of myriads of sarcomeres joined e...
Complementation of alternating zones of positive and negative charge in the myosin rod enables molec...
AbstractA number of cardiac myopathies (e.g. familial hypertrophic cardiomyopathy and dilated cardio...
Myosin filaments in vertebrate striated muscle have a long roughly cylindrical backbone with cross-b...
Myosin filaments interact with actin to generate muscle contraction and many forms of cell motility....
The sarcomeric M-band in vertebrate striated muscle is thought to maintain the uniform hexagonal lat...
In the last decade, improvements in electron microscopy and image processing have permitted signific...
Detailed structural analysis of muscles normally used to study myosin cross-bridge behavior (e.g., f...
The substructure of the thick filaments of chemically skinned chicken pectoralis muscle was investig...
Changes in the molecular structure of striated muscle during contraction can be determined owing to ...
Electron microscopy (EM) shows that myosin heads in thick filaments isolated from striated muscles i...
During contraction, the molecular arrangement within muscle undergoes large changes which can be tra...
Contraction of muscle involves the cyclic interaction of myosin heads on the thick filaments with ac...
The in vivo structure of the myosin filaments in vertebrate smooth muscle is unknown. Evidence from ...
X-ray results are presented concerning the structural state of myosin heads of synthetic filaments i...
Striated muscle enables movement in all animals by the contraction of myriads of sarcomeres joined e...
Complementation of alternating zones of positive and negative charge in the myosin rod enables molec...
AbstractA number of cardiac myopathies (e.g. familial hypertrophic cardiomyopathy and dilated cardio...
Myosin filaments in vertebrate striated muscle have a long roughly cylindrical backbone with cross-b...
Myosin filaments interact with actin to generate muscle contraction and many forms of cell motility....
The sarcomeric M-band in vertebrate striated muscle is thought to maintain the uniform hexagonal lat...
In the last decade, improvements in electron microscopy and image processing have permitted signific...
Detailed structural analysis of muscles normally used to study myosin cross-bridge behavior (e.g., f...
The substructure of the thick filaments of chemically skinned chicken pectoralis muscle was investig...
Changes in the molecular structure of striated muscle during contraction can be determined owing to ...
Electron microscopy (EM) shows that myosin heads in thick filaments isolated from striated muscles i...
During contraction, the molecular arrangement within muscle undergoes large changes which can be tra...
Contraction of muscle involves the cyclic interaction of myosin heads on the thick filaments with ac...
The in vivo structure of the myosin filaments in vertebrate smooth muscle is unknown. Evidence from ...
X-ray results are presented concerning the structural state of myosin heads of synthetic filaments i...
Striated muscle enables movement in all animals by the contraction of myriads of sarcomeres joined e...
Complementation of alternating zones of positive and negative charge in the myosin rod enables molec...