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Utilization of nanopore direct RNA sequencing to analyze viral RNA modifications

Lu Tan, Zhihao Guo, Xiaoming Wang, Dal‐Young Kim, Runsheng Li

2024mSystems21 citationsDOIOpen Access PDF

Abstract

Computational approaches utilizing Oxford Nanopore Technologies Direct RNA Sequencing data were almost exclusively designed to map eukaryotic epitranscriptomes. Therefore, extra caution must be exercised when using these tools to detect vRNA modifications, as in most cases, vRNA modification profiles should be regarded as unknown epitranscriptomes without prior knowledge. Here, we comprehensively evaluated the performance of 10 computational tools in detecting vRNA modification sites. All tested single-mode methods failed to differentiate native and in vitro- transcribed samples. Using optimized cutoff values, seven tested comparative tools generated very different predictions. An integrated analysis showed significant enrichment of Tombo_com and xPore predictions against the background. A pipeline for vRNA modification detection was proposed accordingly and applied to Sindbis virus RNAs. In conclusion, our study underscores the need for the careful application of computational tools to analyze viral epitranscriptomics. It also offers insights into alphaviral RNA modifications, although further validation is required.

Topics & Concepts

RNASubgenomic mRNABiologyComputational biologyNanopore sequencingSindbis virusContext (archaeology)VirologyGuide RNAGeneticsGenomeGeneCas9PaleontologyRNA modifications and cancerCancer-related molecular mechanisms researchRNA Research and Splicing