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the CURT1 proteinscould causecurvature in a membrane
Interactions between viral proteinsleadto membrane curvature
small molecules to be stable and observed in real - time ( 39(passive) caused bymembrane curvature
which interact with cavin coat proteinsto createmembrane curvature for invagination
Sar1-GTP on the membrane recruits COPII proteinsresultingin membrane curvature
Clathrin and associated coat proteins and the BAR domain of PICK1may contributeto membrane curvature
Electrostatic interactions between the positively charged ends of the I - BAR domains and negatively charged hydrophobic phosphatidyl - ionositol-4-biphosphate [ PI ( 4,5 ) P2 ] groupscausecurvature of the membrane
Figure 1a).Cellular membranes ... both of whichcan contributeto membrane curvature
that flippases might affect vesicle formation as a consequence of enrichment of specific phospholipids in one side of bilayered membranes [ 112leadingto membrane curvature
Finally , the plasma membrane at the assembly site bends ,causingan outward membrane curvature
The drastic change in lipid geometry on the inner leaflet in the vicinity of the channelcreatesmembrane curvature
the differential lipid composition of the two membrane monolayers(passive) is influenced byMembrane curvature
bilayer surface discrepancycausesmembrane curvature
The transmembrane densitiescreatea high membrane curvature
its lipid displacement arealeadingto membrane curvature
lateral heterogeneities as well as a means to induce lateral heterogeneity(passive) can be influenced byCurvature of the membrane
Eps15(passive) created bycurved membrane
the cargo protein and the second layer of coating , consisting of Sec13 , forms around the Sec23–Sec24causingmembrane curvature
e ) Charge imbalanceresultingin membrane curvature
In particular , in these explicit membrane simulations , Lys40 , residing at the C - terminal side of the*transmembrane helix , is observedto causelocal membrane curvature
newly foundcontributesto the membrane curvature
Mechanismscausingmembrane curvature
that this disturbs the bilayer 's stabilitycontributingto membrane curvature
that presumably presses the membrane against its underbellyto createmembrane curvature
A tethered amphipathic helix in P / rds ... well positionedto createmembrane curvature
that the M201‐K213 sequence exerts its function through some alternative conformational structureto createmembrane curvature
localized ER membrane tensionsresultin membrane curvature
In particular , in these explicit membrane simulations , Lys(40 ) , residing at the C - terminal side of the*transmembrane helix , is observedto causelocal membrane curvature
localised ER membrane tensionsresultin membrane curvature
lipid membrane interactionsinfluencedmembrane curvature
hence introduces a different type or extent of interface stressesthus contributingto membrane curvature
an N - terminal amphipathic helix cooperates with a dimeric or oligomeric curved BAR - domain scaffoldto createmembrane curvature
any protein binding asymmetrically on a membrane(passive) should ... be influenced bymembrane curvature
B ) Acidificationleadsto membrane curvature
Individual dimers , partially arranged in tip - to - tip arrayscauselocal membrane curvature
The packing and distribution of membrane constituentscreateslocal membrane curvature
CPPs use less hydrophobic amino acidsto createcurvature in the membrane
the oligomerization of hexagonal blocks of NECs1,32(passive) can be caused bymembrane curvature
mechanical force(passive) created bymembrane curvature
When contacting the membrane , helix 0 forms and inserts partially into the membranecreatingmembrane curvature
in ER tubule formationresultingin ER tubule formation
to budding , invagination and fusionleadsto budding , invagination and fusion
to liposome budding , fusion , and invaginationleadingto liposome budding , fusion , and invagination
to budding of the virionleadsto budding of the virion
to the budding of the granulesleadsto the budding of the granules
in invagination ( Huttner and Schmidt , 2000resultingin invagination ( Huttner and Schmidt , 2000
to the formation of deep invaginations and tubules not only in the plasma membrane of cells , but also in giant unilamellar vesicles ( GUVsleadsto the formation of deep invaginations and tubules not only in the plasma membrane of cells , but also in giant unilamellar vesicles ( GUVs
organelle tubulation , which is followed by recruitment of a large GTPase of the DRP superfamily that performs scission [ 13 ] , [ 16 ] , [ 17causesorganelle tubulation , which is followed by recruitment of a large GTPase of the DRP superfamily that performs scission [ 13 ] , [ 16 ] , [ 17
the structure(passive) created bythe structure
accumulation of Bif-1 on target sites that would further enhance the curvature of these membranesmay causeaccumulation of Bif-1 on target sites that would further enhance the curvature of these membranes
in both the constriction and scission of membranes ( Praefcke & McMahon 2004 , McMahon & Gallop 2005resultsin both the constriction and scission of membranes ( Praefcke & McMahon 2004 , McMahon & Gallop 2005
to the productive formation of a clathrin - coated vesicleleadingto the productive formation of a clathrin - coated vesicle
an asymmetry in the flow field in front of the microbubblecausedan asymmetry in the flow field in front of the microbubble
to a reduction in sterol - phospholipid association in cholesterol - rich membranescan leadto a reduction in sterol - phospholipid association in cholesterol - rich membranes
to aberrant recruitment of proteinsleadingto aberrant recruitment of proteins
in the growth of highly curved tubular structuresresultingin the growth of highly curved tubular structures
possiblycould ... originatepossibly
to the formation of tight - fitting , virus - filled invaginations and tubules of the plasma membrane of monkeyledto the formation of tight - fitting , virus - filled invaginations and tubules of the plasma membrane of monkey
in compressive forces within the vesicleresultingin compressive forces within the vesicle
lipid sorting in pure lipid mixtures as well as in biological membranesto causelipid sorting in pure lipid mixtures as well as in biological membranes
the concentration of components(passive) may be influenced bythe concentration of components
Deformation energy(passive) created byDeformation energy
in the formation of invaginations and ... subsequently ... of vesicular - tubular structures which depend on the self - assembly of F - BAR modules into a helical coatresultsin the formation of invaginations and ... subsequently ... of vesicular - tubular structures which depend on the self - assembly of F - BAR modules into a helical coat
from electromotile length changesresultingfrom electromotile length changes
biomacromolecular interaction processes(passive) are influenced bybiomacromolecular interaction processes
from this facilitates CCV formation and provides several opportunities for cellular regulationresultsfrom this facilitates CCV formation and provides several opportunities for cellular regulation
this fusion process(passive) is triggered bythis fusion process
from circumferential fusion of NE membrane leaflets to form the pore in which the NPC residesresultingfrom circumferential fusion of NE membrane leaflets to form the pore in which the NPC resides
to the formation of deep invaginations and tubules , important for successful infection [ 8leadsto the formation of deep invaginations and tubules , important for successful infection [ 8
an autophagy - dependent membrane quality control response that appears to be enhanced in mutants with altered clathrin functiontriggersan autophagy - dependent membrane quality control response that appears to be enhanced in mutants with altered clathrin function
to its disruptionleadsto its disruption
to dimple formation and merger of outer bilayer leaflets creating a presumed hemifusion intermediate ( leftleadingto dimple formation and merger of outer bilayer leaflets creating a presumed hemifusion intermediate ( left
to vesicle initiation ( Szule et al . , 2002 ; Fig . 2contributingto vesicle initiation ( Szule et al . , 2002 ; Fig . 2
to endocytosis or vesicle secretionleadingto endocytosis or vesicle secretion
to the generation of a procoagulant activityleadingto the generation of a procoagulant activity
the channel molecule(passive) caused bythe channel molecule
in this region of the moleculewas discoveredin this region of the molecule
in general changes in the ER morphologywould resultin general changes in the ER morphology
to long - range repulsion ( 14 , 49pos - sibly leadingto long - range repulsion ( 14 , 49
to the observed invaginations and the counterpart to these morphological alterationscontributesto the observed invaginations and the counterpart to these morphological alterations