Home > Publications database > Budding and vesiculation induced by conical membrane inclusions > print

001     5684
005     20240610115656.0
024 7 _ |a 10.1103/PhysRevE.80.031901
|2 DOI
024 7 _ |a WOS:000270383400100
|2 WOS
024 7 _ |a 2128/9324
|2 Handle
037 _ _ |a PreJuSER-5684
041 _ _ |a eng
082 _ _ |a 530
084 _ _ |2 WoS
|a Physics, Fluids & Plasmas
084 _ _ |2 WoS
|a Physics, Mathematical
100 1 _ |a Auth, T.
|b 0
|u FZJ
|0 P:(DE-Juel1)130514
245 _ _ |a Budding and vesiculation induced by conical membrane inclusions
260 _ _ |a College Park, Md.
|b APS
|c 2009
264 _ 1 |3 online
|2 Crossref
|b American Physical Society (APS)
|c 2009-09-03
264 _ 1 |3 print
|2 Crossref
|b American Physical Society (APS)
|c 2009-09-01
300 _ _ |a 031901-1 - 031901-10
336 7 _ |a Journal Article
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336 7 _ |a article
|2 DRIVER
440 _ 0 |a Physical Review E
|x 1539-3755
|0 4924
|y 3
|v 80
500 _ _ |a Record converted from VDB: 12.11.2012
520 _ _ |a Conical inclusions in a lipid bilayer generate an overall spontaneous curvature of the membrane that depends on concentration and geometry of the inclusions. Examples are integral and attached membrane proteins, viruses, and lipid domains. We propose an analytical model to study budding and vesiculation of the lipid bilayer membrane, which is based on the membrane bending energy and the translational entropy of the inclusions. If the inclusions are placed on a membrane with similar curvature radius, their repulsive membrane-mediated interaction is screened. Therefore, for high inclusion density the inclusions aggregate, induce bud formation, and finally vesiculation. Already with the bending energy alone our model allows the prediction of bud radii. However, in case the inclusions induce a single large vesicle to split into two smaller vesicles, bending energy alone predicts that the smaller vesicles have different sizes whereas the translational entropy favors the formation of equal-sized vesicles. Our results agree well with those of recent computer simulations.
536 _ _ |a Kondensierte Materie
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542 _ _ |i 2009-09-03
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588 _ _ |a Dataset connected to Web of Science
650 _ 7 |a J
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700 1 _ |a Gompper, G.
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773 1 8 |a 10.1103/physreve.80.031901
|b American Physical Society (APS)
|d 2009-09-03
|n 3
|p 031901
|3 journal-article
|2 Crossref
|t Physical Review E
|v 80
|y 2009
|x 1539-3755
773 _ _ |a 10.1103/PhysRevE.80.031901
|g Vol. 80, p. 031901-1 - 031901-10
|p 031901
|n 3
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|0 PERI:(DE-600)2844562-4
|t Physical review / E
|v 80
|y 2009
|x 1539-3755
856 7 _ |u http://dx.doi.org/10.1103/PhysRevE.80.031901
856 4 _ |u https://juser.fz-juelich.de/record/5684/files/PhysRevE.80.031901.pdf
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856 4 _ |u https://juser.fz-juelich.de/record/5684/files/PhysRevE.80.031901.pdf?subformat=pdfa
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913 1 _ |k P54
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|l Kondensierte Materie
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914 1 _ |y 2009
915 _ _ |a JCR/ISI refereed
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915 _ _ |a OpenAccess
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915 _ _ |a American Physical Society Transfer of Copyright Agreement
|0 LIC:(DE-HGF)APS-112012
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920 1 _ |d 31.12.2010
|g IFF
|k IFF-2
|l Theorie der Weichen Materie und Biophysik
|0 I:(DE-Juel1)VDB782
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920 1 _ |g IAS
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|l Theorie der Weichen Materie und Biophysik
|0 I:(DE-Juel1)IAS-2-20090406
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920 1 _ |0 I:(DE-82)080012_20140620
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