Add to ORKGThe mechanism of chemotaxis is one of the most interesting issues in modern cell biology. Recent work shows that shallow chemoattractant gradients do not induce the generation of pseudopods, as has been predicted in many models. This poses the question of how else cells can steer towards chemoattractants. Here we use a new computational algorithm to analyze the extension of pseudopods by Dictyostelium cells. We show that a shallow gradient of cAMP induces a small bias in the direction of pseudopod extension, without significantly affecting parameters such as pseudopod frequency or size. Persistent movement, caused by alternating left/right splitting of existing pseudopodia, amplifies the effects of this bias by up to 5-fold. Known players i...
AbstractMany amoeboid cells move by extending pseudopods. Here I present a new stochastic model for ...
Current descriptions of eukaryotic chemotaxis and cell movement focus on how extracellular signals (...
During chemotaxis, pseudopod extensions lead the cell towards the source of attractant. The role of ...
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...
Current models of eukaryotic chemotaxis propose that directional sensing causes localized generation...
Chemotaxis is one of the most fascinating processes in cell biology. Shallow gradients of chemoattra...
Many eukaryotic cells use pseudopodia for movement towards chemoattractants. We developed a computer...
Chemotaxis is one of the most fascinating processes in cell biology. Shallow gradients of chemoattra...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
Many amoeboid cells move by extending pseudopods. Here I present a new stochastic model for chemotax...
AbstractMany amoeboid cells move by extending pseudopods. Here I present a new stochastic model for ...
Current descriptions of eukaryotic chemotaxis and cell movement focus on how extracellular signals (...
During chemotaxis, pseudopod extensions lead the cell towards the source of attractant. The role of ...
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...
Current models of eukaryotic chemotaxis propose that directional sensing causes localized generation...
Chemotaxis is one of the most fascinating processes in cell biology. Shallow gradients of chemoattra...
Many eukaryotic cells use pseudopodia for movement towards chemoattractants. We developed a computer...
Chemotaxis is one of the most fascinating processes in cell biology. Shallow gradients of chemoattra...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
The mechanism of eukaryotic chemotaxis remains unclear despite intensive study. The most frequently ...
Many amoeboid cells move by extending pseudopods. Here I present a new stochastic model for chemotax...
AbstractMany amoeboid cells move by extending pseudopods. Here I present a new stochastic model for ...
Current descriptions of eukaryotic chemotaxis and cell movement focus on how extracellular signals (...
During chemotaxis, pseudopod extensions lead the cell towards the source of attractant. The role of ...