Add to ORKGBeginning with Turing's seminal work [1], decades of research have demonstrated the fundamental ability of biochemical networks to generate and sustain the formation of patterns. However, it is increasingly appreciated that biochemical networks also both shape and are shaped by physical and mechanical processes [2, 3, 4]. One such process is fluid flow. In many respects, the cytoplasm, membrane and actin cortex all function as fluids, and as they flow, they drive bulk transport of molecules throughout the cell. By coupling biochemical activity to long-range molecular transport, flows can shape the distributions of molecules in space. Here, we review the various types of flows that exist in cells, with the aim of highlighting recent advances...
15 pagesA cell is polarised when it has developed a main axis of organisation through the reorganisa...
Cell polarity is a fundamental phenomenon underlying processes such as asymmetric cell division, tis...
AbstractIntracellular transport is essential for maintaining proper cellular function in most eukary...
Beginning with Turing's seminal work [1], decades of research have demonstrated the fundamental abil...
The establishment of cell architecture, whether in a migrating cell, a polarized epithelial cell, or...
Even the simplest cells show a remarkable degree of intracellular patterning. Like developing multic...
Recent advances in cell biology enable precise molecular perturbations. The spatiotemporal organizat...
International audienceCell Polarity is defined as the structural, morphological, and functional asym...
In silico experiments bear the potential for further understanding of biological transport processes...
Protein pattern formation is essential for the spatial organisation of many intracellular processes ...
Asymmetric cell-division in the one-cell embryo is a key step in embryonic development. The initiall...
20 pagesWhen it is polarised, a cell develops an asymmetric distribution of specific molecular marke...
Cells self-organize using reaction-diffusion and fluid-flow principles. Whether bulk membrane flows ...
Cell polarity - the morphological and functional differentiation of cellular compartments in a direc...
15 pagesA cell is polarised when it has developed a main axis of organisation through the reorganisa...
Cell polarity is a fundamental phenomenon underlying processes such as asymmetric cell division, tis...
AbstractIntracellular transport is essential for maintaining proper cellular function in most eukary...
Beginning with Turing's seminal work [1], decades of research have demonstrated the fundamental abil...
The establishment of cell architecture, whether in a migrating cell, a polarized epithelial cell, or...
Even the simplest cells show a remarkable degree of intracellular patterning. Like developing multic...
Recent advances in cell biology enable precise molecular perturbations. The spatiotemporal organizat...
International audienceCell Polarity is defined as the structural, morphological, and functional asym...
In silico experiments bear the potential for further understanding of biological transport processes...
Protein pattern formation is essential for the spatial organisation of many intracellular processes ...
Asymmetric cell-division in the one-cell embryo is a key step in embryonic development. The initiall...
20 pagesWhen it is polarised, a cell develops an asymmetric distribution of specific molecular marke...
Cells self-organize using reaction-diffusion and fluid-flow principles. Whether bulk membrane flows ...
Cell polarity - the morphological and functional differentiation of cellular compartments in a direc...
15 pagesA cell is polarised when it has developed a main axis of organisation through the reorganisa...
Cell polarity is a fundamental phenomenon underlying processes such as asymmetric cell division, tis...
AbstractIntracellular transport is essential for maintaining proper cellular function in most eukary...