AbstractCardiac muscle has been extensively studied, but little information is available on the detailed macromolecular structure of its thick filament. To elucidate the structure of these filaments I have developed a procedure to isolate the cardiac thick filaments for study by electron microscopy and computer image analysis. This procedure uses chemical skinning with Triton X-100 to avoid contraction of the muscle that occurs using the procedures previously developed for isolation of skeletal muscle thick filaments. The negatively stained isolated filaments appear highly periodic, with a helical repeat every third cross-bridge level (43nm). Computed Fourier transforms of the filaments show a strong set of layer lines corresponding to a 43...
Aims An intriguing difference between vertebrate skeletal and cardiac muscles is that the lengths of...
Ultra-rapid freezing and electron microscopy were used to directly observe structural details of fro...
AbstractLow angle x-ray diffraction patterns from relaxed permeabilized rabbit cardiac trabeculae an...
AbstractCardiac muscle has been extensively studied, but little information is available on the deta...
AbstractTo understand how mutations in thick filament proteins such as cardiac myosin binding protei...
Previous findings that have led to the ' sliding-filament ' model for striated muscle are ...
International audienceContraction of skeletal muscle is regulated by structural changes in both acti...
Earlier reports from this and other laboratories indicated that thick filaments may be interconnecte...
AbstractMutations in the thick filament associated protein cardiac myosin binding protein-C (cMyBP-C...
AbstractBased on two criteria, the tightness of packing of myosin rods within the backbone of the fi...
AbstractA number of cardiac myopathies (e.g. familial hypertrophic cardiomyopathy and dilated cardio...
The muscle contractile apparatus has a highly ordered liquid crystalline structure. The molecular me...
Striated (skeletal and cardiac) muscle is a highly organized and conserved tissue with a molecular s...
During contraction, the molecular arrangement within muscle undergoes large changes which can be tra...
Contraction of the heart results from interaction of the myosin and actin filaments. Cardiac myosin ...
Aims An intriguing difference between vertebrate skeletal and cardiac muscles is that the lengths of...
Ultra-rapid freezing and electron microscopy were used to directly observe structural details of fro...
AbstractLow angle x-ray diffraction patterns from relaxed permeabilized rabbit cardiac trabeculae an...
AbstractCardiac muscle has been extensively studied, but little information is available on the deta...
AbstractTo understand how mutations in thick filament proteins such as cardiac myosin binding protei...
Previous findings that have led to the ' sliding-filament ' model for striated muscle are ...
International audienceContraction of skeletal muscle is regulated by structural changes in both acti...
Earlier reports from this and other laboratories indicated that thick filaments may be interconnecte...
AbstractMutations in the thick filament associated protein cardiac myosin binding protein-C (cMyBP-C...
AbstractBased on two criteria, the tightness of packing of myosin rods within the backbone of the fi...
AbstractA number of cardiac myopathies (e.g. familial hypertrophic cardiomyopathy and dilated cardio...
The muscle contractile apparatus has a highly ordered liquid crystalline structure. The molecular me...
Striated (skeletal and cardiac) muscle is a highly organized and conserved tissue with a molecular s...
During contraction, the molecular arrangement within muscle undergoes large changes which can be tra...
Contraction of the heart results from interaction of the myosin and actin filaments. Cardiac myosin ...
Aims An intriguing difference between vertebrate skeletal and cardiac muscles is that the lengths of...
Ultra-rapid freezing and electron microscopy were used to directly observe structural details of fro...
AbstractLow angle x-ray diffraction patterns from relaxed permeabilized rabbit cardiac trabeculae an...