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Essays Biochem. 2019 Aug 6. pii: EBC20190028. doi: 10.1042/EBC20190028. [Epub ahead of print]

DNA methylation in satellite repeats disorders.

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Université de Paris, Epigénétique et Destin Cellulaire, CNRS, Paris F-75013, France.
Aix Marseille Univ, INSERM, MMG, Marseille Medical Genetics, Marseille, France


Despite the tremendous progress made in recent years in assembling the human genome, tandemly repeated DNA elements remain poorly characterized. These sequences account for the vast majority of methylated sites in the human genome and their methylated state is necessary for this repetitive DNA to function properly and to maintain genome integrity. Furthermore, recent advances highlight the emerging role of these sequences in regulating the functions of the human genome and its variability during evolution, among individuals, or in disease susceptibility. In addition, a number of inherited rare diseases are directly linked to the alteration of some of these repetitive DNA sequences, either through changes in the organization or size of the tandem repeat arrays or through mutations in genes encoding chromatin modifiers involved in the epigenetic regulation of these elements.Although largely overlooked so far in the functional annotation of the human genome, satellite elements play key roles in its architectural and topological organization. This includes functions as boundary elements delimitating functional domains or assembly of repressive nuclear compartments, with local or distal impact on gene expression. Thus, the consideration of satellite repeats organization and their associated epigenetic landmarks, including DNA methylation (DNAme), will become unavoidable in the near future to fully decipher human phenotypes and associated diseases.


DNA methylation; Satellite elements; genome topology; molecular basis of health and disease; reptititve sequences


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