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RMVar: an updated database of functional variants involved in RNA modifications

Xiaotong Luo, Huiqin Li, Jiaqi Liang, Qi Zhao, Yubin Xie, Jian Ren, Zhixiang Zuo

2020Nucleic Acids Research219 citationsDOIOpen Access PDF

Abstract

Distinguishing the few disease-related variants from a massive number of passenger variants is a major challenge. Variants affecting RNA modifications that play critical roles in many aspects of RNA metabolism have recently been linked to many human diseases, such as cancers. Evaluating the effect of genetic variants on RNA modifications will provide a new perspective for understanding the pathogenic mechanism of human diseases. Previously, we developed a database called 'm6AVar' to host variants associated with m6A, one of the most prevalent RNA modifications in eukaryotes. To host all RNA modification (RM)-associated variants, here we present an updated version of m6AVar renamed RMVar (http://rmvar.renlab.org). In this update, RMVar contains 1 678 126 RM-associated variants for 9 kinds of RNA modifications, namely m6A, m6Am, m1A, pseudouridine, m5C, m5U, 2'-O-Me, A-to-I and m7G, at three confidence levels. Moreover, RBP binding regions, miRNA targets, splicing events and circRNAs were integrated to assist investigations of the effects of RM-associated variants on posttranscriptional regulation. In addition, disease-related information was integrated from ClinVar and other genome-wide association studies (GWAS) to investigate the relationship between RM-associated variants and diseases. We expect that RMVar may boost further functional studies on genetic variants affecting RNA modifications.

Topics & Concepts

BiologyRNAGeneticsPseudouridineComputational biologyRNA splicingGenomeMechanism (biology)Genetic variantsGeneTransfer RNAGenotypeEpistemologyPhilosophyRNA modifications and cancerCancer-related molecular mechanisms researchRNA Research and Splicing