Chromatin Folding Into Higher Order Structure
نویسندگان
چکیده
منابع مشابه
Nucleosome spacing and chromatin higher-order folding
Packing of about two meters of the human genome DNA into chromatin occupying a several micron-sized cell nucleus requires a high degree of compaction in a manner that allows the information encoded on DNA to remain easily accessible. This packing is mediated by repeated coiling of DNA double helix around histones to form nucleosome arrays that are further folded into higher-order structures. Re...
متن کاملMethods for identifying higher-order chromatin structure.
Eukaryotic genomic DNA is combined with histones, nonhistone proteins, and RNA to form chromatin, which is extensively packaged hierarchically to fit inside a cell's nucleus. The nucleosome-comprising a histone octamer with 147 base pairs of DNA wrapped around it-is the initial level and the repeating unit of chromatin packaging, which electron microscopy first made visible to the human eye as ...
متن کاملChromatin higher-order structure and dynamics.
The primary role of the nucleus as an information storage, retrieval, and replication site requires the physical organization and compaction of meters of DNA. Although it has been clear for many years that nucleosomes constitute the first level of chromatin compaction, this contributes a relatively small fraction of the condensation needed to fit the typical genome into an interphase nucleus or...
متن کاملStructure of active chromatin: higher-order folding of transcriptionally active chromatin in control and hypothyroid rat liver.
Investigation have been carried out into the salt-induced higher-order folding in the transcriptionally active chromatin region of rat liver nuclei by nuclease digestion, sedimentation and CD. The sensitivity of active chromatin in nuclei to micrococcal nuclease was suppressed by raising the ionic strength from 25 to 90 mM, indicating the occurrence of salt-induced condensation. The rate of sed...
متن کاملOn key modulators of higher-order chromatin structure
The billions of DNA bases that comprise mammalian genomes encode the instructions to assemble complex organisms consisting of hundreds of different cell types. Apart from the challenge of packaging this genetic material into a nuclear space that is six orders of magnitude smaller than its linear sequence, the molecules need to be organised in such a way as to ensure the coordinated activity of ...
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ژورنال
عنوان ژورنال: Biophysical Journal
سال: 1986
ISSN: 0006-3495
DOI: 10.1016/s0006-3495(86)83570-6