AI Article Synopsis
- RNA-binding proteins (RBPs) have a modular structure due to multiple RNA-binding domains (RBDs), which help them interact specifically with RNA.
- This study focuses on the Unr protein to explore how these multiple RBDs work together to bind to single-stranded RNA (ssRNA), revealing that some RBDs do not bind RNA but help maintain the protein's structure.
- The findings suggest that interactions between active and inactive RBDs shape RNA recognition and binding, impacting processes like translation regulation and the overall RNA interactome.
Article Abstract
RNA-binding proteins (RBPs) commonly feature multiple RNA-binding domains (RBDs), which provide these proteins with a modular architecture. Accumulating evidence supports that RBP architectural modularity and adaptability define the specificity of their interactions with RNA. However, how multiple RBDs recognize their cognate single-stranded RNA (ssRNA) sequences in concert remains poorly understood. Here, we use Upstream of N-Ras (Unr) as a model system to address this question. Although reported to contain five ssRNA-binding cold-shock domains (CSDs), we demonstrate that Unr includes an additional four CSDs that do not bind RNA (pseudo-RBDs) but are involved in mediating RNA tertiary structure specificity by reducing the conformational heterogeneity of Unr. Disrupting the interactions between canonical and non-canonical CSDs impacts RNA binding, Unr-mediated translation regulation, and the Unr-dependent RNA interactome. Taken together, our studies reveal a new paradigm in protein-RNA recognition, where interactions between RBDs and pseudo-RBDs select RNA tertiary structures, influence RNP assembly, and define target specificity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7383231 | PMC |
| http://dx.doi.org/10.1016/j.celrep.2020.107930 | DOI Listing |
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