Litcius/Paper detail

DNA methylation modulated genetic variant effect on gene transcriptional regulation

Yong Zeng, Rahi Jain, Magnus Lam, Musaddeque Ahmed, Haiyang Guo, Wenjie Xu, Yuan Zhong, Gong‐Hong Wei, Wei Xu, Housheng Hansen He

2023Genome biology24 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Expression quantitative trait locus (eQTL) analysis has emerged as an important tool in elucidating the link between genetic variants and gene expression, thereby bridging the gap between risk SNPs and associated diseases. We recently identified and validated a specific case where the methylation of a CpG site influences the relationship between the genetic variant and gene expression. RESULTS: Here, to systematically evaluate this regulatory mechanism, we develop an extended eQTL mapping method, termed DNA methylation modulated eQTL (memo-eQTL). Applying this memo-eQTL mapping method to 128 normal prostate samples enables identification of 1063 memo-eQTLs, the majority of which are not recognized as conventional eQTLs in the same cohort. We observe that the methylation of the memo-eQTL CpG sites can either enhance or insulate the interaction between SNP and gene expression by altering CTCF-based chromatin 3D structure. CONCLUSIONS: This study demonstrates the prevalence of memo-eQTLs paving the way to identify novel causal genes for traits or diseases associated with genetic variations.

Topics & Concepts

Expression quantitative trait lociBiologyDNA methylationGeneticsSingle-nucleotide polymorphismCpG siteComputational biologyGeneRegulation of gene expressionQuantitative trait locusHuman geneticsCTCFRegulatory sequenceChromatinGene expressionEnhancerGenotypeGenetic Associations and EpidemiologyEpigenetics and DNA MethylationGenomics and Rare Diseases