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Comparison of EM-seq and PBAT methylome library methods for low-input DNA

Yanan Han, Galina Yurevna Zheleznyakova, Yanara Marincevic-Zuniga, Majid Pahlevan Kakhki, Amanda Raine, Maria Needhamsen, Maja Jagodic

2021Epigenetics74 citationsDOIOpen Access PDF

Abstract

DNA methylation is the most studied epigenetic mark involved in regulation of gene expression. For low input samples, a limited number of methods for quantifying DNA methylation genome-wide has been evaluated. Here, we compared a series of input DNA amounts (1-10ng) from two methylome library preparation protocols, enzymatic methyl-seq (EM-seq) and post-bisulfite adaptor tagging (PBAT) adapted from single-cell PBAT. EM-seq takes advantage of enzymatic activity while PBAT relies on conventional bisulfite conversion for detection of DNA methylation. We found that both methods accurately quantified DNA methylation genome-wide. They produced expected distribution patterns around genomic features, high C-T transition efficiency at non-CpG sites and high correlation between input amounts. However, EM-seq performed better in regard to library and sequencing quality, i.e. EM-seq produced larger insert sizes, higher alignment rates and higher library complexity with lower duplication rate compared to PBAT. Moreover, EM-seq demonstrated higher CpG coverage, better CpG site overlap and higher consistency between input series. In summary, our data suggests that EM-seq overall performed better than PBAT in whole-genome methylation quantification of low input samples.

Topics & Concepts

DNA methylationCpG siteBiologyBisulfite sequencingBisulfiteEpigeneticsComputational biologyMethylationGenomeDNAIllumina Methylation AssayInsert (composites)GeneticsGeneGene expressionMechanical engineeringEngineeringEpigenetics and DNA MethylationRNA modifications and cancerCancer-related gene regulation