International audienceDuring membrane fission, the GTPase dynamin forms helical assemblies at the neck of membrane buds. Although it has been proposed that fission results from the constriction of the dynamin helix, new work by Bashkirov et al. (2008) and Pucadyil and Schmid (2008) unexpectedly shows that helix disassembly is also necessary for membrane fission
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
SummaryThe GTPase dynamin is critically involved in membrane fission during endocytosis. How does dy...
During membrane fission, the GTPase dynamin forms helical assemblies at the neck of membrane buds. A...
In eukaryotic cells, membrane compartments are split into two by membrane fission. This ensures disc...
Membrane fission is required for vesicular traffic between intracellular compartments. Dynamin is a ...
SummaryThe GTPase dynamin polymerizes into a helical coat that constricts membrane necks of endocyti...
SummaryThe GTPase dynamin polymerizes into a helical coat that constricts membrane necks of endocyti...
International audienceThe GTPase dynamin polymerizes into a helical coat that constricts membrane ne...
International audienceThe GTPase dynamin polymerizes into a helical coat that constricts membrane ne...
The eukaryotic cell is organized in several compartments, named organelles, delimited by lipid membr...
The eukaryotic cell is organized in several compartments, named organelles, delimited by lipid membr...
SummaryThe GTPase dynamin assembles at the necks of budded vesicles in vivo and functions in membran...
The GTPase dynamin polymerizes into a helical coat that constricts membrane necks of endocytic pits ...
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
SummaryThe GTPase dynamin is critically involved in membrane fission during endocytosis. How does dy...
During membrane fission, the GTPase dynamin forms helical assemblies at the neck of membrane buds. A...
In eukaryotic cells, membrane compartments are split into two by membrane fission. This ensures disc...
Membrane fission is required for vesicular traffic between intracellular compartments. Dynamin is a ...
SummaryThe GTPase dynamin polymerizes into a helical coat that constricts membrane necks of endocyti...
SummaryThe GTPase dynamin polymerizes into a helical coat that constricts membrane necks of endocyti...
International audienceThe GTPase dynamin polymerizes into a helical coat that constricts membrane ne...
International audienceThe GTPase dynamin polymerizes into a helical coat that constricts membrane ne...
The eukaryotic cell is organized in several compartments, named organelles, delimited by lipid membr...
The eukaryotic cell is organized in several compartments, named organelles, delimited by lipid membr...
SummaryThe GTPase dynamin assembles at the necks of budded vesicles in vivo and functions in membran...
The GTPase dynamin polymerizes into a helical coat that constricts membrane necks of endocytic pits ...
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
The large GTPase dynamin is the first protein shown to catalyze membrane fission. Dynamin and its re...
SummaryThe GTPase dynamin is critically involved in membrane fission during endocytosis. How does dy...
DOI
Add to ORKG