BAR domains bend membranes by imposing their curved shape. In this issue, Isas et al. show the structural differences in the interaction of the BAR domain protein amphiphysin with vesicles and tubes. They find that superficial interactions lead to vesicles, whereas more penetrating interactions of a more crowded protein lead to tubes
Amphiphysin2/BIN1 is a crescent-shaped N-BAR protein playing a key role in forming deeply invaginate...
Biological membranes undergo constant shape remodeling involving the formation of highly curved stru...
AbstractKey cellular processes are frequently accompanied by protein-facilitated shape changes in th...
BAR domains bend membranes by imposing their curved shape. In this issue, Isas et al. show the struc...
SummaryBAR proteins are involved in a variety of membrane remodeling events but how they can mold me...
AbstractBAR domains are highly conserved protein domains participating in a diversity of cellular pr...
2016-07-29Membrane curvature is an essential biophysical property utilized within cells to execute t...
AbstractMany cellular processes require the generation of highly curved regions of cell membranes by...
AbstractAn important new structure suggests the BAR domain is a membrane-binding module that can bot...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
Cells are populated by a vast array of membrane-binding proteins that execute critical functions. Fu...
SummaryFunctioning as key players in cellular regulation of membrane curvature, BAR domain proteins ...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
Biological membranes undergo constant shape remodeling involving the formation of highly curved stru...
Amphiphysin2/BIN1 is a crescent-shaped N-BAR protein playing a key role in forming deeply invaginate...
Biological membranes undergo constant shape remodeling involving the formation of highly curved stru...
AbstractKey cellular processes are frequently accompanied by protein-facilitated shape changes in th...
BAR domains bend membranes by imposing their curved shape. In this issue, Isas et al. show the struc...
SummaryBAR proteins are involved in a variety of membrane remodeling events but how they can mold me...
AbstractBAR domains are highly conserved protein domains participating in a diversity of cellular pr...
2016-07-29Membrane curvature is an essential biophysical property utilized within cells to execute t...
AbstractMany cellular processes require the generation of highly curved regions of cell membranes by...
AbstractAn important new structure suggests the BAR domain is a membrane-binding module that can bot...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
Cells are populated by a vast array of membrane-binding proteins that execute critical functions. Fu...
SummaryFunctioning as key players in cellular regulation of membrane curvature, BAR domain proteins ...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
Numerous physiological phenomena involve highly curved cell membranes with significant shape diversi...
Biological membranes undergo constant shape remodeling involving the formation of highly curved stru...
Amphiphysin2/BIN1 is a crescent-shaped N-BAR protein playing a key role in forming deeply invaginate...
Biological membranes undergo constant shape remodeling involving the formation of highly curved stru...
AbstractKey cellular processes are frequently accompanied by protein-facilitated shape changes in th...
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