Abstract

CpG islands (CGIs) are dense clusters of CpG sequences that punctuate the CpG-deficient human genome and associate with many gene promoters. As CGIs also differ from bulk chromosomal DNA by their frequent lack of cytosine methylation, we devised a CGI enrichment method based on nonmethylated CpG affinity chromatography. The resulting library was sequenced to define a novel human blood CGI set that includes many that are not detected by current algorithms. Approximately half of CGIs were associated with annotated gene transcription start sites, the remainder being intra- or intergenic. Using an array representing over 17,000 CGIs, we established that 6%-8% of CGIs are methylated in genomic DNA of human blood, brain, muscle, and spleen. Inter- and intragenic CGIs are preferentially susceptible to methylation. CGIs showing tissue-specific methylation were overrepresented at numerous genetic loci that are essential for development, including HOX and PAX family members. The findings enable a comprehensive analysis of the roles played by CGI methylation in normal and diseased human tissues.

Keywords

BiologyCpG siteDNA methylationMethylationGeneticsHuman genomeGeneEpigeneticsDifferentially methylated regionsGenomeHox geneEpigenetics of physical exerciseComputational biologyTranscription factorGene expression

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Year
2008
Type
article
Volume
6
Issue
1
Pages
e22-e22
Citations
641
Access
Closed

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Robert S. Illingworth, Alastair Kerr, Dina DeSousa et al. (2008). A Novel CpG Island Set Identifies Tissue-Specific Methylation at Developmental Gene Loci. PLoS Biology , 6 (1) , e22-e22. https://doi.org/10.1371/journal.pbio.0060022

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DOI
10.1371/journal.pbio.0060022