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Detecting RNA modification using direct RNA sequencing: A systematic review

Xichen Zhao, Yuxin Zhang, Daiyun Hang, Jia Meng, Zhen Wei

2022Computational and Structural Biotechnology Journal32 citationsDOIOpen Access PDF

Abstract

Post-transcriptional RNA modifications are involved in a range of important cellular processes, including the regulation of gene expression and fine-tuning of the functions of RNA molecules. To decipher the context-specific functions of these post-transcriptional modifications, it is crucial to accurately determine their transcriptomic locations and modification levels under a given cellular condition. With the newly emerged sequencing technology, especially nanopore direct RNA sequencing, different RNA modifications can be detected simultaneously with a single molecular level resolution. Here we provide a systematic review of 15 published RNA modification prediction tools based on direct RNA sequencing data, including their computational models, input-output formats, supported modification types, and reported performances. Finally, we also discussed the potential challenges and future improvements of nanopore sequencing-based methods for RNA modification detection.

Topics & Concepts

RNAComputational biologyNanopore sequencingContext (archaeology)RiboswitchTranscriptomeBiologyGene expressionNon-coding RNADNA sequencingGeneGeneticsPaleontologyRNA modifications and cancerCancer-related molecular mechanisms researchRNA and protein synthesis mechanisms
Detecting RNA modification using direct RNA sequencing: A systematic review | Litcius