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Interchromatin granule

From Wikipedia, the free encyclopedia
Cell biology
Components of a typical animal cell:
  1. Nucleolus
  2. Nucleus
  3. Ribosome (dots as part of 5)
  4. Vesicle
  5. Rough endoplasmic reticulum
  6. Golgi apparatus (or, Golgi body)
  7. Cytoskeleton
  8. Smooth endoplasmic reticulum
  9. Mitochondrion
  10. Vacuole
  11. Cytosol (fluid that contains organelles; with which, comprises cytoplasm)
  12. Lysosome
  13. Centrosome
  14. Cell membrane
Components of a typical nucleus:
1. Nuclear envelope
1.a. Outer membrane
1.b. Inner membrane
2. Nucleolus
3. Nucleoplasm
4. Chromatin
4.a. Heterochromatin
4.b. Euchromatin
5. Ribosome
6. Nuclear pore

An interchromatin granule is a cluster in the nucleus of a mammal cell which is enriched in pre-mRNA splicing factors. Interchromatin granules are located in the interchromatin regions of the mammalian Cell nuclei. They usually appear as irregularly shaped structures that vary in size and number. They can be observed by immunofluorescence microscopy.

Interchromatin granules are structures undergoing constant change, and their components exchange continuously with the nucleoplasm, active transcription sites and other nuclear locations.

Research on dynamics of interchromatin granules has provided new insight into the functional organisation of the nucleus and gene expression.

Interchromatin granule clusters vary in size anywhere between one and several micrometers in diameter. They are composed of 20–25 nm granules[1] that are connected in a beaded chain fashion appearance by thin fibrils.

Interchromatin granule clusters (IGCs) have been proposed to be stockpiles of fully mature snRNPs and other RNA processing components that are ready to be used in the production of mRNA.[2]

See also

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References

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  1. ^ Berezney, Ronald; Jeon, Kwang W. (1995). Nuclear Matrix: Structural and Functional Organization. Elsevier. pp. 111–. ISBN 9780123846204. Retrieved 1 November 2014.
  2. ^ Alberts, Bruce. Molecular Biology of the Cell (Fifth ed.). Garland Science. p. 364.