Endoreduplication

Endoreduplication (also referred to as endoreplication or endocycling) is replication of the nuclear genome in the absence of mitosis, which leads to elevated nuclear gene content and polyploidy. Endoreduplication can be understood simply as a variant form of the mitotic cell cycle (G1-S-G2-M) in which mitosis is circumvented entirely, due to modulation of cyclin-dependent kinase (CDK) activity.[1][2][3][4] Examples of endoreduplication characterised in arthropod, mammalian, and plant species suggest that it is a universal developmental mechanism responsible for the differentiation and morphogenesis of cell types that fulfill an array of biological functions.[1][2] While endoreduplication is often limited to specific cell types in animals, it is considerably more widespread in plants, such that polyploidy can be detected in the majority of plant tissues.[5] Polyploidy and aneuploidy are common phenomena in cancer cells.[6] Given that oncogenesis and endoreduplication likely involve subversion of common cell cycle regulatory mechanisms, a thorough understanding of endoreduplication may provide important insights for cancer biology.

  1. ^ a b Edgar BA, Orr-Weaver TL (2001). "Endoreplication cell cycles: more for less". Cell. 105 (3): 297–306. doi:10.1016/S0092-8674(01)00334-8. PMID 11348589.
  2. ^ a b Lee HO, Davidson JM, Duronio RJ (2008). "Endoreplication: polyploidy with purpose". Genes & Development. 23 (21): 2461–77. doi:10.1101/gad.1829209. PMC 2779750. PMID 19884253.
  3. ^ Edgar BA, Zielke N, Gutierrez C (2014-02-21). "Endocycles: a recurrent evolutionary innovation for post-mitotic cell growth". Nature Reviews Molecular Cell Biology. 15 (3): 197–210. doi:10.1038/nrm3756. ISSN 1471-0080. PMID 24556841. S2CID 641731.
  4. ^ Orr-Weaver TL (2015). "When bigger is better: the role of polyploidy in organogenesis". Trends in Genetics. 31 (6): 307–315. doi:10.1016/j.tig.2015.03.011. PMC 4537166. PMID 25921783.
  5. ^ Galbraith DW, Harkins KR, Knapp S (1991). "Systemic Endopolyploidy in Arabidopsis thaliana". Plant Physiology. 96 (3): 985–9. doi:10.1104/pp.96.3.985. PMC 1080875. PMID 16668285.
  6. ^ Storchova Z, Pellman D (2004). "From polyploidy to aneuploidy, genome instability and cancer". Nature Reviews Molecular Cell Biology. 5 (1): 45–54. doi:10.1038/nrm1276. PMID 14708009. S2CID 11985415.

From Wikipedia, the free encyclopedia · View on Wikipedia

Developed by razib.in