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Widespread effects of DNA methylation and intra-motif dependencies revealed by novel transcription factor binding models

Jan Grau, Florian Schmidt, Marcel H. Schulz

2023Nucleic Acids Research20 citationsDOIOpen Access PDF

Abstract

Several studies suggested that transcription factor (TF) binding to DNA may be impaired or enhanced by DNA methylation. We present MeDeMo, a toolbox for TF motif analysis that combines information about DNA methylation with models capturing intra-motif dependencies. In a large-scale study using ChIP-seq data for 335 TFs, we identify novel TFs that show a binding behaviour associated with DNA methylation. Overall, we find that the presence of CpG methylation decreases the likelihood of binding for the majority of methylation-associated TFs. For a considerable subset of TFs, we show that intra-motif dependencies are pivotal for accurately modelling the impact of DNA methylation on TF binding. We illustrate that the novel methylation-aware TF binding models allow to predict differential ChIP-seq peaks and improve the genome-wide analysis of TF binding. Our work indicates that simplistic models that neglect the effect of DNA methylation on DNA binding may lead to systematic underperformance for methylation-associated TFs.

Topics & Concepts

DNA methylationBiologyMethylationDNA binding siteTranscription factorComputational biologyCpG siteGeneticsMethylated DNA immunoprecipitationDNAPromoterGeneGene expressionEpigenetics and DNA MethylationGenomics and Chromatin DynamicsRNA modifications and cancer