Featured Publications
Na+ riboswitches regulate genes for diverse physiological processes in bacteria
White N, Sadeeshkumar H, Sun A, Sudarsan N, Breaker RR. Na+ riboswitches regulate genes for diverse physiological processes in bacteria. Nature Chemical Biology 2022, 18: 878-885. PMID: 35879547, PMCID: PMC9337991, DOI: 10.1038/s41589-022-01086-4.Peer-Reviewed Original ResearchConceptsOsmotic stressGene expressionDiverse physiological processesMetal ion transportersGene expression changesExpression of genesRiboswitch classesBacterial proteinsIon transportersExpression changesPhysiological processesATP productionLow mM rangeGenesProteinExpressionBacteriaTranscriptionDissociation constantsOrganismsBiologyMM rangeTransportersMotifStress
2024
Genetic disruption of the bacterial raiA motif noncoding RNA causes defects in sporulation and aggregation
Soares L, King C, Fernando C, Roth A, Breaker R. Genetic disruption of the bacterial raiA motif noncoding RNA causes defects in sporulation and aggregation. Proceedings Of The National Academy Of Sciences Of The United States Of America 2024, 121: e2318008121. PMID: 38306478, PMCID: PMC10861870, DOI: 10.1073/pnas.2318008121.Peer-Reviewed Original ResearchConceptsMotif RNAsGenetic disruptionSecondary structure modelKnock-out strainTrans-acting factorsNoncoding RNAsCell differentiation processAbundant RNATransfer RNANcRNA classesRibosomal RNASpore formationMotif genesCellular processesBacterial speciesCellular functionsBioinformatics analysisExpression analysisMotifRNAGenesBiochemical mechanismsNcRNAsDifferentiation processStructural probes
2023
A conserved uORF in the ilvBNC mRNA of Corynebacterium species regulates ilv operon expression
Narunsky A, Kavita K, Panchapakesan S, Fris M, Breaker R. A conserved uORF in the ilvBNC mRNA of Corynebacterium species regulates ilv operon expression. Microbial Genomics 2023, 9: mgen001019. PMID: 37233150, PMCID: PMC10272879, DOI: 10.1099/mgen.0.001019.Peer-Reviewed Original ResearchConceptsBranched-chain amino acidsRNA motifsUpstream open reading framesTranscription attenuation mechanismStructured noncoding RNAsOpen reading frameRiboswitch classesTranscription attenuationProtein translationNoncoding RNAsOperon expressionGenetic approachesReading frameStart codonUORF translationStop codonBacterial speciesHost cellsGenesUORFsAmino acidsMotifCodonCommon mechanismCorynebacterium species