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PLoS Genet. 2014 Nov 13;10(11):e1004785. doi: 10.1371/journal.pgen.1004785. eCollection 2014 Nov.

Evolution of DNA methylation patterns in the Brassicaceae is driven by differences in genome organization.

Author information

1
Department of Molecular Biology, Max Planck Institute for Developmental Biology, Tübingen, Germany.

Abstract

DNA methylation is an ancient molecular modification found in most eukaryotes. In plants, DNA methylation is not only critical for transcriptionally silencing transposons, but can also affect phenotype by altering expression of protein coding genes. The extent of its contribution to phenotypic diversity over evolutionary time is, however, unclear, because of limited stability of epialleles that are not linked to DNA mutations. To dissect the relative contribution of DNA methylation to transposon surveillance and host gene regulation, we leveraged information from three species in the Brassicaceae that vary in genome architecture, Capsella rubella, Arabidopsis lyrata, and Arabidopsis thaliana. We found that the lineage-specific expansion and contraction of transposon and repeat sequences is the main driver of interspecific differences in DNA methylation. The most heavily methylated portions of the genome are thus not conserved at the sequence level. Outside of repeat-associated methylation, there is a surprising degree of conservation in methylation at single nucleotides located in gene bodies. Finally, dynamic DNA methylation is affected more by tissue type than by environmental differences in all species, but these responses are not conserved. The majority of DNA methylation variation between species resides in hypervariable genomic regions, and thus, in the context of macroevolution, is of limited phenotypic consequence.

PMID:
25393550
PMCID:
PMC4230842
DOI:
10.1371/journal.pgen.1004785
[Indexed for MEDLINE]
Free PMC Article

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