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Literature DB >> 26638681

DNA Methylation, Mitochondria, and Programmed Aging.

Abstract

DNA methylation is a key epigenetic process involved in the regulation of nuclear gene expression. Progress in the study of genomic DNA methylation led to the precise identification of methylation sites reflecting biological age of cells and tissues. However, the functional significance of mitochondrial DNA (mtDNA) methylation remains unknown. Growing evidence suggests that mtDNA methylation is linked to aging and oxidative stress. This mini-review summarizes information about the methylation of nuclear and mtDNA in mammals, indicating the connection of these processes to programmed aging.

Mesh：

Substances：
DNA, Mitochondrial

Year: 2015 PMID： 26638681 DOI： 10.1134/S0006297915120044

Source DB: PubMed Journal: Biochemistry (Mosc) ISSN： 0006-2979 Impact factor: 2.487

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Cited

5 in total

5. Temporal Profiling of the Cortical Synaptic Mitochondrial Proteome Identifies Ageing Associated Regulators of Stability.

Authors: Laura C Graham; Rachel A Kline; Douglas J Lamont; Thomas H Gillingwater; Neil A Mabbott; Paul A Skehel; Thomas M Wishart
Journal: Cells Date: 2021-12-02 Impact factor: 6.600

5 in total

DNA Methylation, Mitochondria, and Programmed Aging.

1. Effects of Exercise on ASC Methylation and IL-1 Cytokines in Heart Failure.

Review 2. The epigenetic mechanisms involved in mitochondrial dysfunction: Implication for Parkinson's disease.

Review 3. Epigenetic Clock: DNA Methylation in Aging.

4. Activation of DNA demethylases attenuates aging-associated arterial stiffening and hypertension.

5. Temporal Profiling of the Cortical Synaptic Mitochondrial Proteome Identifies Ageing Associated Regulators of Stability.