Cell migration is an important biological function that impacts many physiological and pathological processes. Often migration is directed along various densities of aligned fibers of collagen, a process called contact guidance. However, cells adhere to other components in the extracellular matrix, possibly affecting migrational behavior. Additionally, changes in intracellular contractility are well known to affect random migration, but its effect on contact guidance is less known. This study examines differences in directed migration in response to variations in the spacing of collagen, non-specific background adhesion strength and myosin II-mediated contractility. Collagen was microcontact printed onto glass substrates and timelapse live-...
AbstractThere is increasing evidence to suggest that physical parameters, including substrate rigidi...
Cell migration is essential for a variety of biological processes, such as embryogenesis, wound heal...
Cancer cell migration is influenced by cellular phenotype and behavior as well as by the mechanical ...
During cancer progression the extracellular matrix is remodeled, forming aligned collagen fibers tha...
Invasion of cancer cells into the surrounding tissue is an important step during cancer progression ...
The mechanical interaction of cells with their surroundings plays a fundamental role in many biolog...
Cell motility is essential for life and development. Unfortunately, cell migration is also linked to...
AbstractCell migration plays a critical role in a wide variety of physiological and pathological phe...
AbstractMigrating cells generate traction forces to counteract the movement-resisting forces arising...
Statistics have shown approximately 20% of deaths every year in the US are as a result of cancer. Mo...
Cells can move through extracellular environments with varying geometries and adhesive properties. A...
Cancer cells have a tremendous ability to sense and respond to extracellular matrix (ECM) stiffness,...
The ability of cells to migrate is a fundamental physiological process involved in embryonic develop...
Cell motility depends on the conversion of extracellular cues into intracellular cytoskeletal respon...
Migrating cells exhibit distinct motility modes and can switch between modes based on chemical or ph...
AbstractThere is increasing evidence to suggest that physical parameters, including substrate rigidi...
Cell migration is essential for a variety of biological processes, such as embryogenesis, wound heal...
Cancer cell migration is influenced by cellular phenotype and behavior as well as by the mechanical ...
During cancer progression the extracellular matrix is remodeled, forming aligned collagen fibers tha...
Invasion of cancer cells into the surrounding tissue is an important step during cancer progression ...
The mechanical interaction of cells with their surroundings plays a fundamental role in many biolog...
Cell motility is essential for life and development. Unfortunately, cell migration is also linked to...
AbstractCell migration plays a critical role in a wide variety of physiological and pathological phe...
AbstractMigrating cells generate traction forces to counteract the movement-resisting forces arising...
Statistics have shown approximately 20% of deaths every year in the US are as a result of cancer. Mo...
Cells can move through extracellular environments with varying geometries and adhesive properties. A...
Cancer cells have a tremendous ability to sense and respond to extracellular matrix (ECM) stiffness,...
The ability of cells to migrate is a fundamental physiological process involved in embryonic develop...
Cell motility depends on the conversion of extracellular cues into intracellular cytoskeletal respon...
Migrating cells exhibit distinct motility modes and can switch between modes based on chemical or ph...
AbstractThere is increasing evidence to suggest that physical parameters, including substrate rigidi...
Cell migration is essential for a variety of biological processes, such as embryogenesis, wound heal...
Cancer cell migration is influenced by cellular phenotype and behavior as well as by the mechanical ...
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