Abstract
A major trend in the epitranscriptomics field over the last 5 years has been the high-throughput analysis of RNA modifications by a combination of specific chemical treatment(s), followed by library preparation and deep sequencing. Multiple protocols have been described for several important RNA modifications, such as 5-methylcytosine (m5C), pseudouridine (ψ), 1-methyladenosine (m1A), and 2′-O-methylation (Nm). One commonly used method is the alkaline cleavage-based RiboMethSeq protocol, where positions of reads' 5'-ends are used to distinguish nucleotides protected by ribose methylation. This method was successfully applied to detect and quantify Nm residues in various RNA species such as rRNA, tRNA, and snRNA. Such applications require adaptation of the initially published protocol(s), both at the wet bench and in the bioinformatics analysis. In this manuscript, we describe the optimization of RiboMethSeq bioinformatics at the level of initial read treatment, alignment to the reference sequence, counting the 5′- and 3′- ends, and calculation of the RiboMethSeq scores, allowing precise detection and quantification of the Nm-related signal. These improvements introduced in the original pipeline permit a more accurate detection of Nm candidates and a more precise quantification of Nm level variations. Applications of the improved RiboMethSeq treatment pipeline for different cellular RNA types are discussed.
Highlights
The precise and high-throughput mapping of modified nucleotides in RNA is a real challenge in the field of epitranscriptomics (RNA modifications)
We report the comprehensive optimization of every step of the bioinformatic treatment used for the detection and quantification of ribose 2′-O-methylation by the RiboMethSeq protocol
To optimize the RiboMethSeq scores, we used previously published datasets obtained for wild-type yeast Saccharomyces cerevisiae and human HeLa cell rRNA 2′-O-methylation analysis, as well as additional samples for hTERT immortalized human mammary epithelial cell line (HME) (Marchand et al, 2016; Erales et al, 2017; Sharma et al, 2017); accession numbers PRJEB43738, PRJEB34951 and PRJEB35565
Summary
The precise and high-throughput mapping of modified nucleotides in RNA is a real challenge in the field of epitranscriptomics (RNA modifications). We published a high-throughput deep sequencingbased approach, named RiboMethSeq, for mapping of 2′-Omethylations in highly abundant RNAs, mostly in rRNA (Marchand et al, 2016; Erales et al, 2017), with possible extension to tRNA (Marchand et al, 2017a; Freund et al, 2019). This protocol is suitable for low abundance RNAs (Krogh et al, 2017). We propose new, optimized scores (ScoreMEAN2, ScoreA2, and MethScore2) that provide better FDR values and improve the relative quantification of 2′-O-methylation in RNA
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