Llamas, Bastien and Holland, Michelle L and Chen, Kefei and Cropley, Jennifer E and Cooper, Alan and Suter, Catherine M (2012) High-resolution analysis of cytosine methylation in ancient DNA. PloS one, 7 (1). pp. e30226. ISSN 1932-6203 (Gold OA)
Llamas, Bastien and Holland, Michelle L and Chen, Kefei and Cropley, Jennifer E and Cooper, Alan and Suter, Catherine M (2012) High-resolution analysis of cytosine methylation in ancient DNA. PloS one, 7 (1). pp. e30226. ISSN 1932-6203 (Gold OA)
Llamas, Bastien and Holland, Michelle L and Chen, Kefei and Cropley, Jennifer E and Cooper, Alan and Suter, Catherine M (2012) High-resolution analysis of cytosine methylation in ancient DNA. PloS one, 7 (1). pp. e30226. ISSN 1932-6203 (Gold OA)
Abstract
Epigenetic changes to gene expression can result in heritable phenotypic characteristics that are not encoded in the DNA itself, but rather by biochemical modifications to the DNA or associated chromatin proteins. Interposed between genes and environment, these epigenetic modifications can be influenced by environmental factors to affect phenotype for multiple generations. This raises the possibility that epigenetic states provide a substrate for natural selection, with the potential to participate in the rapid adaptation of species to changes in environment. Any direct test of this hypothesis would require the ability to measure epigenetic states over evolutionary timescales. Here we describe the first single-base resolution of cytosine methylation patterns in an ancient mammalian genome, by bisulphite allelic sequencing of loci from late Pleistocene Bison priscus remains. Retrotransposons and the differentially methylated regions of imprinted loci displayed methylation patterns identical to those derived from fresh bovine tissue, indicating that methylation patterns are preserved in the ancient DNA. Our findings establish the biochemical stability of methylated cytosines over extensive time frames, and provide the first direct evidence that cytosine methylation patterns are retained in DNA from ancient specimens. The ability to resolve cytosine methylation in ancient DNA provides a powerful means to study the role of epigenetics in evolution. (ARC grant #DP0773602; NHMRC grant #459412).
Metadata
Subjects: | R Medicine > R Medicine (General) |
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Depositing User: | Repository Administrator |
Date Deposited: | 04 Jan 2016 22:13 |
Last Modified: | 15 Feb 2017 04:55 |
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Filename: 2012 Llamas _PLOS ONE _Ancient DNA _CSUT OA.pdf