SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2491489013> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2491489013 abstract "Biomembranes, which are mainly composed of neutral and charged lipids, exhibit a large variety of functional structures and dynamics. Here, we report a coarse-grained molecular dynamics (MD) simulation of the phase separation and morphological dynamics in charged lipid bilayer vesicles. The screened long-range electrostatic repulsion among charged head groups delays or inhibits the lateral phase separation in charged vesicles compared with neutral vesicles, suggesting the transition of the phase-separation mechanism from spinodal decomposition to nucleation or homogeneous dispersion. Moreover, the electrostatic repulsion causes morphological changes, such as pore formation, and further transformations into disk, string, and bicelle structures, which are spatiotemporally coupled to the lateral segregation of charged lipids. Based on our coarse-grained MD simulation, we propose a plausible mechanism of pore formation at the molecular level. The pore formation in a charged-lipid-rich domain is initiated by the prior disturbance of the local molecular orientation in the domain." @default.
W2491489013 created "2016-08-23" @default.
W2491489013 creator A5021173399 @default.
W2491489013 creator A5072264358 @default.
W2491489013 creator A5087717751 @default.
W2491489013 date "2016-10-26" @default.
W2491489013 modified "2023-10-16" @default.
W2491489013 title "Coarse-grained molecular dynamics simulation of binary charged lipid membranes: Phase separation and morphological dynamics" @default.
W2491489013 cites W1734862742 @default.
W2491489013 cites W1968537323 @default.
W2491489013 cites W1977004640 @default.
W2491489013 cites W1978395041 @default.
W2491489013 cites W1981916955 @default.
W2491489013 cites W1982452385 @default.
W2491489013 cites W1989637234 @default.
W2491489013 cites W1990648949 @default.
W2491489013 cites W1995710299 @default.
W2491489013 cites W1996125406 @default.
W2491489013 cites W1997837777 @default.
W2491489013 cites W2000539291 @default.
W2491489013 cites W2003203305 @default.
W2491489013 cites W2003776332 @default.
W2491489013 cites W2011049478 @default.
W2491489013 cites W2014030143 @default.
W2491489013 cites W2017998270 @default.
W2491489013 cites W2020785009 @default.
W2491489013 cites W2021493878 @default.
W2491489013 cites W2022308914 @default.
W2491489013 cites W2025581386 @default.
W2491489013 cites W2026222100 @default.
W2491489013 cites W2027504135 @default.
W2491489013 cites W2030822379 @default.
W2491489013 cites W2039840864 @default.
W2491489013 cites W2044848883 @default.
W2491489013 cites W2045516425 @default.
W2491489013 cites W2046138985 @default.
W2491489013 cites W2048558848 @default.
W2491489013 cites W2048839675 @default.
W2491489013 cites W2052876806 @default.
W2491489013 cites W2072167784 @default.
W2491489013 cites W2075693627 @default.
W2491489013 cites W2077637487 @default.
W2491489013 cites W2078835467 @default.
W2491489013 cites W2084141366 @default.
W2491489013 cites W2088288626 @default.
W2491489013 cites W2104906714 @default.
W2491489013 cites W2108600976 @default.
W2491489013 cites W2110898186 @default.
W2491489013 cites W2111724662 @default.
W2491489013 cites W2121936687 @default.
W2491489013 cites W2132925972 @default.
W2491489013 cites W2134723427 @default.
W2491489013 cites W2137825215 @default.
W2491489013 cites W2163258998 @default.
W2491489013 cites W2164322080 @default.
W2491489013 cites W2167315212 @default.
W2491489013 cites W2171190437 @default.
W2491489013 cites W2234896907 @default.
W2491489013 cites W2327923299 @default.
W2491489013 cites W2341842456 @default.
W2491489013 cites W2594929608 @default.
W2491489013 cites W3104114101 @default.
W2491489013 cites W3125212803 @default.
W2491489013 doi "https://doi.org/10.1103/physreve.94.042611" @default.
W2491489013 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27841477" @default.
W2491489013 hasPublicationYear "2016" @default.
W2491489013 type Work @default.
W2491489013 sameAs 2491489013 @default.
W2491489013 citedByCount "8" @default.
W2491489013 countsByYear W24914890132017 @default.
W2491489013 countsByYear W24914890132018 @default.
W2491489013 countsByYear W24914890132019 @default.
W2491489013 countsByYear W24914890132021 @default.
W2491489013 countsByYear W24914890132023 @default.
W2491489013 crossrefType "journal-article" @default.
W2491489013 hasAuthorship W2491489013A5021173399 @default.
W2491489013 hasAuthorship W2491489013A5072264358 @default.
W2491489013 hasAuthorship W2491489013A5087717751 @default.
W2491489013 hasBestOaLocation W24914890132 @default.
W2491489013 hasConcept C117626034 @default.
W2491489013 hasConcept C121332964 @default.
W2491489013 hasConcept C12554922 @default.
W2491489013 hasConcept C130316041 @default.
W2491489013 hasConcept C147597530 @default.
W2491489013 hasConcept C147789679 @default.
W2491489013 hasConcept C149288129 @default.
W2491489013 hasConcept C159467904 @default.
W2491489013 hasConcept C178790620 @default.
W2491489013 hasConcept C185592680 @default.
W2491489013 hasConcept C192157962 @default.
W2491489013 hasConcept C192562407 @default.
W2491489013 hasConcept C29234059 @default.
W2491489013 hasConcept C39944091 @default.
W2491489013 hasConcept C41625074 @default.
W2491489013 hasConcept C44280652 @default.
W2491489013 hasConcept C55493867 @default.
W2491489013 hasConcept C59593255 @default.
W2491489013 hasConcept C61048295 @default.
W2491489013 hasConcept C86803240 @default.
W2491489013 hasConcept C97355855 @default.