Cells undergo many structural-mechanical changes as an inextricable component of cellular motility, cytokinesis, and changes in cell shape. The mere act of receptor-mediated adhesion to extracellular matrix involves massive changes in cytoskeletal organization, spreading, and flattening of cells against the matrix, and the generation of traction forces through the contractile activity of cells. The primary force-generating proteins involved in these mechanical processes are thought to be the nonmuscle myosin II\u27s (NMM-II). Of the three different nonmuscle myosin II isoforms that have been identified, two (NMM-IIA and NMM-IIB) are found almost ubiquitously in higher organisms. Yet, it has remained unclear whether these molecules play redu...
AbstractWe have shown previously that cells lacking myosin II are impaired in multicellular motility...
To address the question of why more than one myosin-II isoform is expressed in a single cell to driv...
The actin-myosin cytoskeleton is generally accepted to produce the contractile forces necessary for ...
Cells undergo many structural-mechanical changes as an inextricable component of cellular motility, ...
Cells undergo many structural-mechan-ical changes as an inextricable compo-nent of cellular motility...
Nonmuscle myosin II (NM II) is an integral part of essential cellular processes, including adhesion ...
Nonmuscle myosin IIA (NMM-IIA) is involved in the formation of focal adhesions and neurite retractio...
AbstractNonmuscle myosin IIA (NMM-IIA) is involved in the formation of focal adhesions and neurite r...
<p>The ability of cells to migrate is of fundamental importance to a diverse array of biological pro...
The interaction of non-muscle myosins 2A and 2B with actin may drive changes in cell movement, shap...
Although myosin II is known to play an important role in cell migration, little is known about its s...
Cell motility is a cornerstone of embryogenesis, tissue remodeling and repair, and cancer cell invas...
Nonmuscle myosin II (NM II) is an integral part of essential cellular processes, including adhesion ...
AbstractCells have evolved multiple mechanisms to overcome the effects of entropy and diffusion to c...
Myosins are molecular motors that convert chemical energy into mechanical force. Vertebrate cells co...
AbstractWe have shown previously that cells lacking myosin II are impaired in multicellular motility...
To address the question of why more than one myosin-II isoform is expressed in a single cell to driv...
The actin-myosin cytoskeleton is generally accepted to produce the contractile forces necessary for ...
Cells undergo many structural-mechanical changes as an inextricable component of cellular motility, ...
Cells undergo many structural-mechan-ical changes as an inextricable compo-nent of cellular motility...
Nonmuscle myosin II (NM II) is an integral part of essential cellular processes, including adhesion ...
Nonmuscle myosin IIA (NMM-IIA) is involved in the formation of focal adhesions and neurite retractio...
AbstractNonmuscle myosin IIA (NMM-IIA) is involved in the formation of focal adhesions and neurite r...
<p>The ability of cells to migrate is of fundamental importance to a diverse array of biological pro...
The interaction of non-muscle myosins 2A and 2B with actin may drive changes in cell movement, shap...
Although myosin II is known to play an important role in cell migration, little is known about its s...
Cell motility is a cornerstone of embryogenesis, tissue remodeling and repair, and cancer cell invas...
Nonmuscle myosin II (NM II) is an integral part of essential cellular processes, including adhesion ...
AbstractCells have evolved multiple mechanisms to overcome the effects of entropy and diffusion to c...
Myosins are molecular motors that convert chemical energy into mechanical force. Vertebrate cells co...
AbstractWe have shown previously that cells lacking myosin II are impaired in multicellular motility...
To address the question of why more than one myosin-II isoform is expressed in a single cell to driv...
The actin-myosin cytoskeleton is generally accepted to produce the contractile forces necessary for ...
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