Add to ORKGMuscle contracts by the myosin cross-bridges rowing the actin filaments past the myosin filaments. In the past year many structural details of this mechanism have become clear. Structural studies indicate distinct states for myosin S1 in the rigor, ATP or down conformation and in the products complex (ADP.Pi) or up to state. Crystallographic studies substantiate this classification and yield details of the transformation. The isomerization up to down is the power stroke of muscle. This consists in the main of large changes of angle of the lever arm (at the distal part of the myosin head) which can account for an 11 nm power stroke
The power stroke pulling myosin along actin filaments during muscle contraction is achieved by a lar...
During skeletal muscle contraction, regular arrays of actin and myosin filaments slide past each oth...
During skeletal muscle contraction, regular arrays of actin and myosin filaments slide past each oth...
Muscle contracts by the myosin cross-bridges rowing the actin filaments past the myosin filaments. I...
Muscle contracts by the myosin cross-bridges rowing the actin filaments past the myosin filaments. I...
The myosin cross-bridge exists in two conformations, which differ in the orientation of a long lever...
The myosin cross-bridge exists in two conformations, which di¡er in the orientation of a long lever ...
The myosin cross-bridge exists in two conformations, which di¡er in the orientation of a long lever ...
X-ray crystallography shows the myosin cross-bridge to exist in two conformations, the beginning and...
X-ray crystallography shows the myosin cross-bridge to exist in two conformations, the beginning and...
X-ray crystallography shows the myosin cross-bridge to exist in two conformations, the beginning and...
Myosin II, the myosin which has provided the most biochemical and structural data, is dimeric consis...
Muscular contraction stems from a sliding movement of thick and thin filaments relative to each othe...
The power stroke pulling myosin along actin filaments during muscle contraction is achieved by a lar...
The power stroke pulling myosin along actin filaments during muscle contraction is achieved by a lar...
The power stroke pulling myosin along actin filaments during muscle contraction is achieved by a lar...
During skeletal muscle contraction, regular arrays of actin and myosin filaments slide past each oth...
During skeletal muscle contraction, regular arrays of actin and myosin filaments slide past each oth...
Muscle contracts by the myosin cross-bridges rowing the actin filaments past the myosin filaments. I...
Muscle contracts by the myosin cross-bridges rowing the actin filaments past the myosin filaments. I...
The myosin cross-bridge exists in two conformations, which differ in the orientation of a long lever...
The myosin cross-bridge exists in two conformations, which di¡er in the orientation of a long lever ...
The myosin cross-bridge exists in two conformations, which di¡er in the orientation of a long lever ...
X-ray crystallography shows the myosin cross-bridge to exist in two conformations, the beginning and...
X-ray crystallography shows the myosin cross-bridge to exist in two conformations, the beginning and...
X-ray crystallography shows the myosin cross-bridge to exist in two conformations, the beginning and...
Myosin II, the myosin which has provided the most biochemical and structural data, is dimeric consis...
Muscular contraction stems from a sliding movement of thick and thin filaments relative to each othe...
The power stroke pulling myosin along actin filaments during muscle contraction is achieved by a lar...
The power stroke pulling myosin along actin filaments during muscle contraction is achieved by a lar...
The power stroke pulling myosin along actin filaments during muscle contraction is achieved by a lar...
During skeletal muscle contraction, regular arrays of actin and myosin filaments slide past each oth...
During skeletal muscle contraction, regular arrays of actin and myosin filaments slide past each oth...