Sequence, Structure and Context Preferences of Human RNA Binding Proteins
Citations Over Time
Abstract
SUMMARY Production of functional cellular RNAs involves multiple processing and regulatory steps principally mediated by RNA binding proteins (RBPs). Here we present the affinity landscapes of 78 human RBPs using an unbiased assay that determines the sequence, structure, and context preferences of an RBP in vitro from deep sequencing of bound RNAs. Analyses of these data revealed several interesting patterns, including unexpectedly low diversity of RNA motifs, implying frequent convergent evolution of binding specificity toward a relatively small set of RNA motifs, many with low compositional complexity. Offsetting this trend, we observed extensive preferences for contextual features outside of core RNA motifs, including spaced “bipartite” motifs, biased flanking nucleotide context, and bias away from or towards RNA structure. These contextual features are likely to enable targeting of distinct subsets of transcripts by different RBPs that recognize the same core motif. Our results enable construction of “RNA maps” of RBP activity without requiring crosslinking-based assays, and provide unprecedented depth of information on the interaction of RBPs with RNA.
Related Papers
- → RNA Sequence Context Effects Measured In Vitro Predict In Vivo Protein Binding and Regulation(2016)147 cited
- → Isolated pseudo–RNA-recognition motifs of SR proteins can regulate splicing using a noncanonical mode of RNA recognition(2013)129 cited
- → Roles of Plant Glycine-Rich RNA-Binding Proteins in Development and Stress Responses(2021)45 cited
- → Modular architecture and functional annotation of human RNA-binding proteins containing RNA recognition motif(2023)25 cited
- → BRIO: a web server for RNA sequence and structure motif scan(2021)20 cited