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A high-resolution view of RNA endonuclease cleavage in <i>Bacillus subtilis</i>

James Taggart, K. Julia Dierksheide, Hannah J LeBlanc, Jean‐Benoît Lalanne, Sylvain Durand, Frédérique Braun, Ciarán Condon, Gene‐Wei Li

2025Nucleic Acids Research12 citationsDOIOpen Access PDF

Abstract

RNA endonucleases are the rate-limiting initiator of decay for many bacterial mRNAs. However, the positions of cleavage and their sequence determinants remain elusive even for the well-studied Bacillus subtilis. Here we present two complementary approaches-transcriptome-wide mapping of endoribonucleolytic activity and deep mutational scanning of RNA cleavage sites-that reveal distinct rules governing the specificity among B. subtilis endoribonucleases. Detection of RNA terminal nucleotides in both 5'- and 3'-exonuclease-deficient cells revealed >103 putative endonucleolytic cleavage sites with single-nucleotide resolution. We found a surprisingly weak consensus for RNase Y targets, a contrastingly strong primary sequence motif for EndoA targets, and long-range intramolecular secondary structures for RNase III targets. Deep mutational analysis of RNase Y cleavage sites showed that the specificity is governed by many disjointed sequence features. Our results highlight the delocalized nature of mRNA stability determinants and provide a strategy for elucidating endoribonuclease specificity in vivo.

Topics & Concepts

BiologyEndoribonucleaseRNase PRNACleavage (geology)Ribonuclease IIIBacillus subtilisCytokinesisEndonucleaseExonucleaseRNase HGeneticsMolecular biologyNuclease protection assayConsensus sequenceNon-coding RNAGenePeptide sequenceRNA interferencePolymeraseFracture (geology)CellCell divisionPaleontologyBacteriaRNA and protein synthesis mechanismsBacterial Genetics and BiotechnologyBacteriophages and microbial interactions