The size of the nucleosome

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The size of the nucleosome

Publication: Research - peer-review › Journal article – Annual report year: 2011

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The size of the nucleosome. / Bohr, Jakob ; Olsen, Kasper.

In: arXiv:1102.0761, 2011, p. arXiv:1102.0761.

Publication: Research - peer-review › Journal article – Annual report year: 2011

In: arXiv:1102.0761, 2011, p. arXiv:1102.0761.

Publication: Research - peer-review › Journal article – Annual report year: 2011

Bibtex

@article{497c7d07c704470d9332d04fd18439d7,

title = "The size of the nucleosome",

author = "Jakob Bohr and Kasper Olsen",

year = "2011",

pages = "arXiv:1102.0761",

journal = "arXiv:1102.0761",

}

RIS

TY - JOUR

T1 - The size of the nucleosome

A1 - Bohr,Jakob

A1 - Olsen,Kasper

AU - Bohr,Jakob

AU - Olsen,Kasper

PY - 2011

Y1 - 2011

N2 - The structural origin of the size of the 11 nm nucleosomal disc is addressed. On the nanometer length-scale the organization of DNA as chromatin in the chromosomes involves a coiling of DNA around the histone core of the nucleosome. We suggest that the size of the nucleosome core particle is dictated by the fulfillment of two criteria: One is optimizing the volume fraction of the DNA double helix; this requirement for close-packing has its root in optimizing atomic and molecular interactions. The other criterion being that of having a zero strain-twist coupling; being a zero-twist structure is a necessity when allowing for transient tensile stresses during the reorganization of DNA, e.g., during the reposition, or sliding, of a nucleosome along the DNA double helix. The mathematical model we apply is based on a tubular description of double helices assuming hard walls. When the base-pairs of the linker-DNA is included the estimate of the size of an ideal nucleosome is in close agreement with the experimental numbers. Interestingly, the size of the nucleosome is shown to be a consequence of intrinsic properties of the DNA double helix.

AB - The structural origin of the size of the 11 nm nucleosomal disc is addressed. On the nanometer length-scale the organization of DNA as chromatin in the chromosomes involves a coiling of DNA around the histone core of the nucleosome. We suggest that the size of the nucleosome core particle is dictated by the fulfillment of two criteria: One is optimizing the volume fraction of the DNA double helix; this requirement for close-packing has its root in optimizing atomic and molecular interactions. The other criterion being that of having a zero strain-twist coupling; being a zero-twist structure is a necessity when allowing for transient tensile stresses during the reorganization of DNA, e.g., during the reposition, or sliding, of a nucleosome along the DNA double helix. The mathematical model we apply is based on a tubular description of double helices assuming hard walls. When the base-pairs of the linker-DNA is included the estimate of the size of an ideal nucleosome is in close agreement with the experimental numbers. Interestingly, the size of the nucleosome is shown to be a consequence of intrinsic properties of the DNA double helix.

KW - Soft Condensed Matter

KW - Biological Physics

KW - Biomolecules

UR - http://arxiv.org/abs/1102.0761

JO - arXiv:1102.0761

JF - arXiv:1102.0761

SP - arXiv:1102.0761

ER -