Repurposing RNA sequencing for discovery of RNA modifications in clinical cohorts
Kar‐Tong Tan, Ling‐Wen Ding, Chan-Shuo Wu, Daniel G. Tenen, Henry Yang
Abstract
-dimethylguanosine) at nucleotide-resolution. Applying ModTect to 11,371 patient samples and 934 cell lines across 33 cancer types, we show that the epitranscriptome was dysregulated in patients across multiple cancer types and was additionally associated with cancer progression and survival outcomes. Some types of RNA modification were also more disrupted than others in patients with cancer. Moreover, RNA modifications contribute to multiple types of RNA-DNA sequence differences, which unexpectedly escape detection by Sanger sequencing. ModTect can thus be used to discover associations between RNA modifications and clinical outcomes in patient cohorts.
Topics & Concepts
RNAComputational biologyRepurposingBiologyNon-coding RNAGeneticsGeneEcologyRNA modifications and cancerCancer-related molecular mechanisms researchRNA and protein synthesis mechanisms