Genome-Wide Young L1 Methylation Profiling by bs-ATLAS-seq - Archive ouverte HAL
Chapitre D'ouvrage Année : 2023

Genome-Wide Young L1 Methylation Profiling by bs-ATLAS-seq

Résumé

By silencing L1 retrotransposons, DNA methylation protects mammalian genomes from potent endogenous mutagens. However, some loci can escape this repressive mechanism and become active, particularly in carcinomas. Alterations of L1 DNA methylation can also locally influence gene expression. Comprehensive measurement of L1 DNA methylation at the locus level remains challenging. Here, we present bs-ATLAS-seq, a genome-wide approach to locate full-length L1 elements in the human genome, and assess their methylation levels at single-base and single-locus resolutions. This strategy targets the youngest, and only retrotransposition-competent family, L1HS, but also detects a significant fraction of older elements (L1PA2 to L1PA8). Bs-ATLAS-seq evaluates methylation at the first 15 CpGs of L1 5' UTR, which corresponds to the first half of the sense promoter. It relies on random fragmentation of the genomic DNA, adapter ligation, bisulfite treatment and suppression PCR, and ends by asymmetrical paired-end sequencing. A dedicated pipeline provides the location of L1 elements and their methylation status, including for non-reference loci, as well as their single-molecule DNA profiles.
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Dates et versions

hal-04492702 , version 1 (06-03-2024)

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Claude Philippe, Gael Cristofari. Genome-Wide Young L1 Methylation Profiling by bs-ATLAS-seq. Miguel R. Branco; Alexandre de Mendoza Soler. Transposable Elements, 2607, Springer US, pp.127-150, 2023, Methods in Molecular Biology, 978-1-0716-2882-9. ⟨10.1007/978-1-0716-2883-6_8⟩. ⟨hal-04492702⟩
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