中文

Chromatin: a tunable spring at work inside chromosomes

软凝聚态物质 2016-08-16 v3 材料科学 生物大分子

摘要

This paper focuses on mechanical aspects of chromatin biological functioning. Within a basic geometric modeling of the chromatin assembly, we give for the first time the complete set of elastic constants (twist and bend persistence lengths, stretch modulus and twist-stretch coupling constant) of the so-called 30-nm chromatin fiber, in terms of DNA elastic properties and geometric properties of the fiber assembly. The computation naturally embeds the fiber within a current analytical model known as the ``extensible worm-like rope'', allowing a straightforward prediction of the force-extension curves. We show that these elastic constants are strongly sensitive to the linker length, up to 1 bp, or equivalently to its twist, and might locally reach very low values, yielding a highly flexible and extensible domain in the fiber. In particular, the twist-stretch coupling constant, reflecting the chirality of the chromatin fiber, exhibits steep variations and sign changes when the linker length is varied. We argue that this tunable elasticity might be a key feature for chromatin function, for instance in the initiation and regulation of transcription.

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引用

@article{arxiv.cond-mat/0104483,
  title  = {Chromatin: a tunable spring at work inside chromosomes},
  author = {Eli Ben-Haïm and Annick Lesne and Jean-Marc Victor},
  journal= {arXiv preprint arXiv:cond-mat/0104483},
  year   = {2016}
}

备注

38 pages 15 figures