Add to ORKGChemotaxis is the result of a refined interplay among various intracellular molecules that process spatial and temporal information. Here we present a modular scheme of the complex interactions between the front and the back of cells that allows them to navigate. First, at the front of the cell, activated Rho-type GTPases induce actin polymerization and pseudopod formation. Second, phosphatidylinositol-3,4,5-trisphosphate (PtdIns(3,4,5)P3) is produced in a patch at the leading edge, where it binds pleckstrin-homology-domain-containing proteins, which enhance actin polymerization and translocation of the pseudopod. Third, in Dictyostelium amoebae, a cyclic-GMP-signalling cascade has been identified that regulates myosin filament formation in...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
Chemotaxis is the result of a refined interplay among various intracellular molecules that process s...
Chemotaxis is the ability of cells to move in the direction of an external gradient of signaling mol...
During chemotaxis, pseudopod extensions lead the cell towards the source of attractant. The role of ...
Eukaryotic chemotaxis is extremely complex. Cells can sense a wide range of stimuli, and many intrac...
Chemotaxis of amoeboid cells is driven by actin filaments in leading pseudopodia and actin–myosin fi...
Chemotaxis of amoeboid cells is driven by actin filaments in leading pseudopodia and actin–myosin fi...
AbstractThe ability to sense and respond to shallow gradients of extracellular signals is remarkably...
Understanding cell migration is centrally important to modern cell biology. However, despite years o...
Chemotaxis is the property of cells to migrate towards gradients of chemicals. It is a highly dynami...
SummaryWe review insights in signaling pathways controlling cell polarization and cytoskeletal organ...
Phosphatidylinositol 3,4,5-trispho-sphate (PtdIns(3,4,5)P3) is a key signaling molecule in chemotaxi...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
Chemotaxis is the result of a refined interplay among various intracellular molecules that process s...
Chemotaxis is the ability of cells to move in the direction of an external gradient of signaling mol...
During chemotaxis, pseudopod extensions lead the cell towards the source of attractant. The role of ...
Eukaryotic chemotaxis is extremely complex. Cells can sense a wide range of stimuli, and many intrac...
Chemotaxis of amoeboid cells is driven by actin filaments in leading pseudopodia and actin–myosin fi...
Chemotaxis of amoeboid cells is driven by actin filaments in leading pseudopodia and actin–myosin fi...
AbstractThe ability to sense and respond to shallow gradients of extracellular signals is remarkably...
Understanding cell migration is centrally important to modern cell biology. However, despite years o...
Chemotaxis is the property of cells to migrate towards gradients of chemicals. It is a highly dynami...
SummaryWe review insights in signaling pathways controlling cell polarization and cytoskeletal organ...
Phosphatidylinositol 3,4,5-trispho-sphate (PtdIns(3,4,5)P3) is a key signaling molecule in chemotaxi...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...
The mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent wor...