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. 2021 Oct;39(10):1278-1291.
doi: 10.1038/s41587-021-00915-6. Epub 2021 May 13.

Quantitative profiling of pseudouridylation dynamics in native RNAs with nanopore sequencing

Oguzhan Begik #  1   2   3 Morghan C Lucas #  1   4 Leszek P Pryszcz  1   5 Jose Miguel Ramirez  1 Rebeca Medina  1 Ivan Milenkovic  1   4 Sonia Cruciani  1   4 Huanle Liu  1 Helaine Graziele Santos Vieira  1 Aldema Sas-Chen  6 John S Mattick  3 Schraga Schwartz  6 Eva Maria Novoa  7   8
Affiliations

Quantitative profiling of pseudouridylation dynamics in native RNAs with nanopore sequencing

Oguzhan Begik et al. Nat Biotechnol. 2021 Oct.

Abstract

Nanopore RNA sequencing shows promise as a method for discriminating and identifying different RNA modifications in native RNA. Expanding on the ability of nanopore sequencing to detect N6-methyladenosine, we show that other modifications, in particular pseudouridine (Ψ) and 2'-O-methylation (Nm), also result in characteristic base-calling 'error' signatures in the nanopore data. Focusing on Ψ modification sites, we detected known and uncovered previously unreported Ψ sites in mRNAs, non-coding RNAs and rRNAs, including a Pus4-dependent Ψ modification in yeast mitochondrial rRNA. To explore the dynamics of pseudouridylation, we treated yeast cells with oxidative, cold and heat stresses and detected heat-sensitive Ψ-modified sites in small nuclear RNAs, small nucleolar RNAs and mRNAs. Finally, we developed a software, nanoRMS, that estimates per-site modification stoichiometries by identifying single-molecule reads with altered current intensity and trace profiles. This work demonstrates that Nm and Ψ RNA modifications can be detected in cellular RNAs and that their modification stoichiometry can be quantified by nanopore sequencing of native RNA.

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