Computer modeling demonstrates that electrostatic attraction of nucleosomal DNA is mediated by histone tails. - Wikidata - awgldk - TriplyDB

Computer modeling demonstrates that electrostatic attraction of nucleosomal DNA is mediated by histone tails.

Computer modeling demonstrates that electrostatic attraction of nucleosomal DNA is mediated by histone tails.

http://www.wikidata.org/entity/Q42425326

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An advanced coarse-grained nucleosome core particle model for computer simulations of nucleosome-nucleosome interactions under varying ionic conditions Chromatin ionic atmosphere analyzed by a mesoscale electrostatic approach.The chromatin fiber: multiscale problems and approaches.Unwrapping of nucleosomal DNA ends: a multiscale molecular dynamics study H3 and H4 histone tails play a central role in the interactions of recombinant NCPs.Molecular dynamics simulations of DNA-polycation complex formation Histone H3 and H4 N-terminal tails in nucleosome arrays at cellular concentrations probed by magic angle spinning NMR spectroscopy Physical forces may cause Hox gene collinearity in the primary and secondary axes of the developing vertebrates.Structure and phase diagram of nucleosome core particles aggregated by multivalent cations Electrostatic origin of salt-induced nucleosome array compaction Modeling studies of chromatin fiber structure as a function of DNA linker length.Structural role of RKS motifs in chromatin interactions: a molecular dynamics study of HP1 bound to a variably modified histone tail Computer modeling reveals that modifications of the histone tail charges define salt-dependent interaction of the nucleosome core particles.A universal description for the experimental behavior of salt-(in)dependent oligocation-induced DNA condensation.A tale of tails: how histone tails mediate chromatin compaction in different salt and linker histone environments.A universal description for the experimental behavior of salt-(in)dependent oligocation-induced DNA condensation.A universal description for the experimental behavior of salt-(in)dependent oligocation-induced DNA condensation.Molecular dynamics simulations demonstrate the regulation of DNA-DNA attraction by H4 histone tail acetylations and mutations.H4 Tails Potentially Produce the Diversity in the Orientation of Two Nucleosomes.A systematic analysis of nucleosome core particle and nucleosome-nucleosome stacking structure.Thermodynamic stability of Hoogsteen and Watson–Crick base pairs in the presence of histone H3-mimicking peptide

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Computer modeling demonstrates that electrostatic attraction of nucleosomal DNA is mediated by histone tails.

http://www.wikidata.org/entity/Q42425326

description

2006 nî lūn-bûn

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2006年の論文

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2006年論文

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2006年論文

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2006年論文

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name

Computer modeling demonstrates ...... is mediated by histone tails.

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Computer modeling demonstrates ...... is mediated by histone tails.

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type

label

Computer modeling demonstrates ...... is mediated by histone tails.

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Computer modeling demonstrates ...... is mediated by histone tails.

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prefLabel

Computer modeling demonstrates ...... is mediated by histone tails.

@en

Computer modeling demonstrates ...... is mediated by histone tails.

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BIOPHYSJ.105.080226

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Biophysical Journal

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Computer modeling demonstrates ...... is mediated by histone tails.

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Lars Nordenskiöld

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Nikolay Korolev

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P2860

Crystal structure of the nucleosome core particle at 2.8 A resolution

What determines the folding of the chromatin fiber?

Solvent mediated interactions in the structure of the nucleosome core particle at 1.9 a resolution

Aggregation of nucleosomes by divalent cations.

A molecular dynamics simulation study of oriented DNA with polyamine and sodium counterions: diffusion and averaged binding of water and cations.

A molecular dynamics simulation study of polyamine- and sodium-DNA. Interplay between polyamine binding and DNA structure.

Probing counterion modulated repulsion and attraction between nucleic acid duplexes in solution.

Electrostatic mechanism of nucleosomal array folding revealed by computer simulation.

Conformational dynamics of the chromatin fiber in solution: determinants, mechanisms, and functions.

Computer simulation of the 30-nanometer chromatin fiber.

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4305-4316

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scholarly article

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10.1529/BIOPHYSJ.105.080226

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12

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90

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Alexander P Lyubartsev

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2006-03-24T00:00:00Z

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7214321

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