In most of the genome CpG sites are pretty much always methylated, but CpG islands are instead often unmethylated. This has been linked to the fact that they often are associated to transcripted genes.
What are the current theories on the mechanisms involved in this preferential demethylation?
Answer
Methylation is increasingly seen as a consequence of gene activity rather than a regulatory mechanism. There are cases where methylation is controlled because of gene regulatory control, especially at the famous H19/Igf2 locus[1]. Here is a generally good recent review[2], note they mention that DNA methylation does not cause transcriptional silencing, and likely methylated promoters are probably more active than unmethylated, they just create silencing RNAs when methylated (resulting in an apparent silencing). This may help explain some of the story[3], but note how old that paper is, yet generally I'd say few people know of its existance.
The exception seems to be transposable elements[4], but their control is probably also controlled by silencing RNAs.
References:
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