Results 311 to 320 of about 159,767 (320)
Some of the next articles are maybe not open access.
2001
This review focuses on selected papers that illustrate an historical perspective and the current knowledge of myosin structure and function in protists. The review contains a general description of myosin structure, a phylogenetic tree of the myosin classes, and descriptions of myosin isoforms identified in protists. Each myosin is discussed within the
openaire +3 more sources
This review focuses on selected papers that illustrate an historical perspective and the current knowledge of myosin structure and function in protists. The review contains a general description of myosin structure, a phylogenetic tree of the myosin classes, and descriptions of myosin isoforms identified in protists. Each myosin is discussed within the
openaire +3 more sources
Trends in Cell Biology, 1991
The traditional view of myosin, drawn from studies of myosins from striated muscles, is that of an elongated two-headed molecule that assembles into filaments. However, biochemical, molecular genetic and genetic studies have uncovered a host of ubiquitous single-headed nonfilamentous myosins known collectively as myosins I. All of the myosins I possess
openaire +2 more sources
The traditional view of myosin, drawn from studies of myosins from striated muscles, is that of an elongated two-headed molecule that assembles into filaments. However, biochemical, molecular genetic and genetic studies have uncovered a host of ubiquitous single-headed nonfilamentous myosins known collectively as myosins I. All of the myosins I possess
openaire +2 more sources
2007
Myosin II, the myosin which has provided the most biochemical and structural data, is dimeric consisting of a long coiled-coil region with the motor domain flexibly attached to the N-terminal end of the coiled-coil. The motor domain (subfragment 1, S1, or cross-bridge) is obtained by proteolytic cleavage of myosin.
openaire +2 more sources
Myosin II, the myosin which has provided the most biochemical and structural data, is dimeric consisting of a long coiled-coil region with the motor domain flexibly attached to the N-terminal end of the coiled-coil. The motor domain (subfragment 1, S1, or cross-bridge) is obtained by proteolytic cleavage of myosin.
openaire +2 more sources
THE BINDING OF PYROPHOSPHATE TO MYOSIN A AND MYOSIN B
The Journal of Biochemistry, 1959Yuji Tonomura, Fumi Morita
openaire +2 more sources