Abstract
RNA and protein interactions play crucial roles in multiple biological processes, while these interactions are significantly influenced by the structures and sequences of protein and RNA molecules. In this study, we first performed an analysis of RNA-protein interacting complexes, and identified interface properties of sequences and structures, which reveal the diverse nature of the binding sites. With the observations, we built a three-step prediction model, namely RPI-Bind, for the identification of RNA-protein binding regions using the sequences and structures of both proteins and RNAs. The three steps include 1) the prediction of RNA binding regions on protein, 2) the prediction of protein binding regions on RNA, and 3) the prediction of interacting regions on both RNA and protein simultaneously, with the results from steps 1) and 2). Compared with existing methods, most of which employ only sequences, our model significantly improves the prediction accuracy at each of the three steps. Especially, our model outperforms the catRAPID by >20% at the 3rd step. All of these results indicate the importance of structures in RNA-protein interactions, and suggest that the RPI-Bind model is a powerful theoretical framework for studying RNA-protein interactions.
Highlights
RNA and protein interactions play crucial roles in multiple biological processes, while these interactions are significantly influenced by the structures and sequences of protein and RNA molecules
TRNAs are bound to aminoacyl-tRNA synthetases for the translation during protein synthesis[6], and nascent RNA coordinates the transition of RNA polymerase (RNAP) II to regulate their own transcription[7]
The protein and RNA structures were analyzed with the Protein Data Bank (PDB)-2-protein blocks (PBs) database[77] and the ‘BEAR’ approach[74] for the protein local conformations (PLCs) and RNA local conformations (RLCs) representations, respectively (Supplemental Tables S2 and S3)
Summary
RNA and protein interactions play crucial roles in multiple biological processes, while these interactions are significantly influenced by the structures and sequences of protein and RNA molecules. Our model outperforms the catRAPID by >20% at the 3rd step All of these results indicate the importance of structures in RNA-protein interactions, and suggest that the RPI-Bind model is a powerful theoretical framework for studying RNA-protein interactions. RNA-protein interactions are critical at many regulatory steps of gene expression and stages of organismal development[1,2,3,4,5] Their interactions may vary according to sequences and structures, and perform distinct functions. The latter cannot be applied to study RNA-protein binding interactions, since RNA is more flexible than DNA and has more complicated structures
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