nucleosome - vertaling naar arabisch
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nucleosome - vertaling naar arabisch

COMPLEX COMPRISED OF DNA WOUND AROUND A MULTISUBUNIT CORE AND ASSOCIATED PROTEINS, WHICH FORMS THE PRIMARY PACKING UNIT OF DNA INTO HIGHER ORDER STRUCTURES
Core particle; Nucleosome core particle; Nucleosomes; Histone post-translational modification; HPTM
  • Apoptotic DNA laddering]]. Digested chromatin is in the first lane; the second contains DNA standard to compare lengths.
  • Basic units of [[chromatin]] structure
  • Histone tails and their function in chromatin formation
  •  id = PDB ID: 1EQZ }}</ref>)
  • Scheme of nucleosome organization.<ref name="Stryer95" />
  • Steps in nucleosome assembly

nucleosome         
‎ جُسَيمٌ نَوَوِيّ‎
nucleosome         
جُسَيمٌ نَوَوِيّ

Wikipedia

Nucleosome

A nucleosome is the basic structural unit of DNA packaging in eukaryotes. The structure of a nucleosome consists of a segment of DNA wound around eight histone proteins and resembles thread wrapped around a spool. The nucleosome is the fundamental subunit of chromatin. Each nucleosome is composed of a little less than two turns of DNA wrapped around a set of eight proteins called histones, which are known as a histone octamer. Each histone octamer is composed of two copies each of the histone proteins H2A, H2B, H3, and H4.

DNA must be compacted into nucleosomes to fit within the cell nucleus. In addition to nucleosome wrapping, eukaryotic chromatin is further compacted by being folded into a series of more complex structures, eventually forming a chromosome. Each human cell contains about 30 million nucleosomes.

Nucleosomes are thought to carry epigenetically inherited information in the form of covalent modifications of their core histones. Nucleosome positions in the genome are not random, and it is important to know where each nucleosome is located because this determines the accessibility of the DNA to regulatory proteins.

Nucleosomes were first observed as particles in the electron microscope by Don and Ada Olins in 1974, and their existence and structure (as histone octamers surrounded by approximately 200 base pairs of DNA) were proposed by Roger Kornberg. The role of the nucleosome as a regulator of transcription was demonstrated by Lorch et al. in vitro in 1987 and by Han and Grunstein and Clark-Adams et al. in vivo in 1988.

The nucleosome core particle consists of approximately 146 base pairs (bp) of DNA wrapped in 1.67 left-handed superhelical turns around a histone octamer, consisting of 2 copies each of the core histones H2A, H2B, H3, and H4. Core particles are connected by stretches of linker DNA, which can be up to about 80 bp long. Technically, a nucleosome is defined as the core particle plus one of these linker regions; however the word is often synonymous with the core particle. Genome-wide nucleosome positioning maps are now available for many model organisms including mouse liver and brain.

Linker histones such as H1 and its isoforms are involved in chromatin compaction and sit at the base of the nucleosome near the DNA entry and exit binding to the linker region of the DNA. Non-condensed nucleosomes without the linker histone resemble "beads on a string of DNA" under an electron microscope.

In contrast to most eukaryotic cells, mature sperm cells largely use protamines to package their genomic DNA, most likely to achieve an even higher packaging ratio. Histone equivalents and a simplified chromatin structure have also been found in Archaea, suggesting that eukaryotes are not the only organisms that use nucleosomes.