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공공누리This item is licensed Korea Open Government License

dc.contributor.author
김주인
dc.contributor.author
정영균
dc.contributor.author
전찬일
dc.contributor.author
전하웅
dc.contributor.author
하배연
dc.date.accessioned
2019-08-28T07:41:40Z
dc.date.available
2019-08-28T07:41:40Z
dc.date.issued
2015-03-14
dc.identifier.issn
1744-683X
dc.identifier.uri
https://repository.kisti.re.kr/handle/10580/14382
dc.identifier.uri
http://www.ndsl.kr/ndsl/search/detail/article/articleSearchResultDetail.do?cn=NART71522481
dc.description.abstract
DNA compaction in a bacterial cell is in part carried out by entropic (depletion) forces induced by “free” proteins or crowding particles in the cytoplasm. Indeed, recent in vitro experiments highlight these effects by showing that they alone can condense the E. coli chromosome to its in vivo size. Using molecular dynamics simulations and a theoretical approach, we study how a flexible chain molecule can be compacted by crowding particles with variable sizes in a (cell-like) cylindrical space. Our results show that with smaller crowding agents the compaction occurs at a lower volume fraction but at a larger concentration such that doubling their size is equivalent to increasing their concentration fourfold. Similarly, the effect of polydispersity can be correctly mimicked by adjusting the size of crowders in a homogeneous system. Under different conditions, however, crowding particles can induce chain adsorption onto the cylinder wall, stretching the chain, which would otherwise remain condensed
dc.language
eng
dc.relation.ispartofseries
Soft Matter
dc.title
A polymer in a crowded and confined space: effects of crowder size and poly-dispersity
dc.citation.endPage
1888
dc.citation.startPage
1877
dc.citation.volume
11
dc.subject.keyword
chromosome
dc.subject.keyword
crowding
dc.subject.keyword
polymer
dc.subject.keyword
molecular dynamics
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