Genomic Imprinting and Physiological Processes in Mammals

Genomic Imprinting and Physiological Processes in Mammals

Complex multicellular organisms, such as mammals, express two complete sets of chromosomes per nucleus, combining the genetic material of both parents. However, epigenetic studies have demonstrated violations to this rule that are necessary for mammalian physiology; the most notable parental allele...

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Veröffentlicht in:Cell 2019-02, Vol.176 (5), p.952-965
Hauptverfasser: Tucci, Valter, Bartolomei, Marisa, Benvenisty, Nissim, Bourc’his, Déborah, Charalambous, Marika, Dulac, Catherine, Feil, Robert, Glaser, Juliane, Huelsmann, Lisa, John, Rosalind, Mcnamara, Gráinne, Moorwood, Kim, Muscatelli, Francoise, Sasaki, Hiroyuki, Strassmann, Beverly, Vincenz, Claudius, Wilkins, Jon, Isles, Anthony, Kelsey, Gavin, Ferguson-Smith, Anne
Format: Artikel
Sprache:eng
Schlagworte:
Alleles
Animals
Biological Evolution
Chromosomes
DNA Methylation
Epigenesis, Genetic
Genomic Imprinting
Life Sciences
Mammals
Physiological Phenomena
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Zusammenfassung:Complex multicellular organisms, such as mammals, express two complete sets of chromosomes per nucleus, combining the genetic material of both parents. However, epigenetic studies have demonstrated violations to this rule that are necessary for mammalian physiology; the most notable parental allele expression phenomenon is genomic imprinting. With the identification of endogenous imprinted genes, genomic imprinting became well-established as an epigenetic mechanism in which the expression pattern of a parental allele influences phenotypic expression. The expanding study of genomic imprinting is revealing a significant impact on brain functions and associated diseases. Here, we review key milestones in the field of imprinting and discuss mechanisms and systems in which imprinted genes exert a significant role.
ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2019.01.043