Abstract

The cellular levels of mRNAs are controlled post-transcriptionally by cis-regulatory elements located in the 3'-untranslated region. These linear or structured elements are recognized by RNA-binding proteins (RBPs) to modulate mRNA stability. The Roquin-1 and -2 proteins specifically recognize RNA stem-loop motifs, the trinucleotide loop-containing constitutive decay elements (CDEs) and the hexanucleotide loop-containing alternative decay elements (ADEs), with their unique ROQ domain to initiate mRNA degradation. However, the RNA-binding capacity of Roquin towards different classes of stem-loops has not been rigorously characterized, leaving its exact binding preferences unclear. Here, we map the RNA-binding preference of the ROQ domain at nucleotide resolution introducing sRBNS (structured RNA Bind-n-Seq), a customized RBNS workflow with pre-structured RNA libraries. We found a clear preference of Roquin towards specific loop sizes and extended the consensus motifs for CDEs and ADEs. The newly identified motifs are recognized with nanomolar affinity through the canonical RNA-ROQ interface. Using these new stem-loop variants as blueprints, we predicted novel Roquin target mRNAs and verified the expanded target space in cells. The study demonstrates the power of high-throughput assays including RNA structure formation for the systematic investigation of (structural) RNA-binding preferences to comprehensively identify mRNA targets and elucidate the biological function of RBPs.

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