SummaryMembrane bending is accomplished in part by amphipathic helix insertion into the bilayer and the assembly of BAR domain scaffolds preparing the membrane for fission. Two recent studies highlight the roles of amphipathic helices and BAR scaffolds in membrane fission and establish the structural basis of membrane bending by the N-BAR protein endophilin
AbstractMembrane budding-fission is a fundamental process generating intracellular carriers of prote...
AbstractEndophilin N-BAR (N-terminal helix and Bin/amphiphysin/Rvs) domain tubulates and vesiculates...
International audienceDuring membrane fission, the GTPase dynamin forms helical assemblies at the ne...
Boucrot et al. (2012) demonstrate a membrane fission mechanism independent of nucleotide hydrolysis ...
SummaryShallow hydrophobic insertions and crescent-shaped BAR scaffolds promote membrane curvature. ...
Boucrot et al. (2012) demonstrate a membrane fission mechanism independent of nucleotide hydrolysis ...
Biological membranes undergo constant remodeling by membrane fission and fusion to change their shap...
Cellular membranes must be dynamically remodeled to facilitate essential cellular functions like mem...
Membrane fission is the cellular process by which organelles divide or release vesicles, and it is i...
SummaryFunctioning as key players in cellular regulation of membrane curvature, BAR domain proteins ...
SummaryRemodeling of membranes by fission or fusion has been extensively studied in eukaryotes, but ...
Dynamin, which mediates membrane fission during endocytosis, binds endophilin and other members of t...
Dynamin, which mediates membrane fission during endocytosis, binds endophilin and other members of t...
Dynamin, which mediates membrane fission during endocytosis, binds endophilin and other members of t...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
AbstractMembrane budding-fission is a fundamental process generating intracellular carriers of prote...
AbstractEndophilin N-BAR (N-terminal helix and Bin/amphiphysin/Rvs) domain tubulates and vesiculates...
International audienceDuring membrane fission, the GTPase dynamin forms helical assemblies at the ne...
Boucrot et al. (2012) demonstrate a membrane fission mechanism independent of nucleotide hydrolysis ...
SummaryShallow hydrophobic insertions and crescent-shaped BAR scaffolds promote membrane curvature. ...
Boucrot et al. (2012) demonstrate a membrane fission mechanism independent of nucleotide hydrolysis ...
Biological membranes undergo constant remodeling by membrane fission and fusion to change their shap...
Cellular membranes must be dynamically remodeled to facilitate essential cellular functions like mem...
Membrane fission is the cellular process by which organelles divide or release vesicles, and it is i...
SummaryFunctioning as key players in cellular regulation of membrane curvature, BAR domain proteins ...
SummaryRemodeling of membranes by fission or fusion has been extensively studied in eukaryotes, but ...
Dynamin, which mediates membrane fission during endocytosis, binds endophilin and other members of t...
Dynamin, which mediates membrane fission during endocytosis, binds endophilin and other members of t...
Dynamin, which mediates membrane fission during endocytosis, binds endophilin and other members of t...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
AbstractMembrane budding-fission is a fundamental process generating intracellular carriers of prote...
AbstractEndophilin N-BAR (N-terminal helix and Bin/amphiphysin/Rvs) domain tubulates and vesiculates...
International audienceDuring membrane fission, the GTPase dynamin forms helical assemblies at the ne...
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