Kok Seong Lim scite author profile

N6-Methyladenosine (m6A) is a widespread, reversible chemical modification of RNA molecules, implicated in many aspects of RNA metabolism. Little quantitative information exists as to either how many transcript copies of particular genes are m6A modified (‘m6A levels’) or the relationship of m6A modification(s) to alternative RNA isoforms. To deconvolute the m6A epitranscriptome, we developed m6A-level and isoform-characterization sequencing (m6A-LAIC-seq). We found that cells exhibit a broad range of nonstoichiometric m6A levels with cell-type specificity. At the level of isoform characterization, we discovered widespread differences in the use of tandem alternative polyadenylation (APA) sites by methylated and nonmethylated transcript isoforms of individual genes. Strikingly, there is a strong bias for methylated transcripts to be coupled with proximal APA sites, resulting in shortened 3′ untranslated regions, while nonmethylated transcript isoforms tend to use distal APA sites. m6A-LAIC-seq yields a new perspective on transcriptome complexity and links APA usage to m6A modifications.

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Quantitative analysis of ribonucleoside modifications in tRNA by HPLC-coupled mass spectrometry

Chan

et al. 2014

Nat Protoc

246

263

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Post-transcriptional modification of RNA is an important determinant of RNA quality control, translational efficiency, RNA-protein interactions, and stress response. This is illustrated by the observation of toxicant-specific changes in the spectrum of tRNA modifications in a stress response mechanism involving selective translation of codon-biased mRNA for critical proteins. To facilitate systems-level studies of RNA modifications, we developed a liquid chromatography-coupled mass spectrometry (LC-MS) technique for the quantitative analysis of modified ribonucleosides in tRNA or other RNA species. The protocol includes tRNA purification by HPLC, enzymatic hydrolysis, reversed-phase HPLC resolution of the ribonucleosides, and identification and quantification of individual ribonucleosides by LC-MS using dynamic multiple reaction monitoring. This approach enables quantification of modified ribonucleosides in several micrograms of tRNA, or other RNA, in a 15-minute LC-MS run. By comparison, traditional methods for detecting modified ribonucleosides are labor and time intensive, require larger RNA quantities, are modification-specific, or require radioactive labeling.

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Do replicable profiles of multimorbidity exist? Systematic review and synthesis

et al. 2019

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Kok Seong Lim

m6A-LAIC-seq reveals the census and complexity of the m6A epitranscriptome

Quantitative analysis of ribonucleoside modifications in tRNA by HPLC-coupled mass spectrometry

Do replicable profiles of multimorbidity exist? Systematic review and synthesis

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