Featured Publications
Discovering riboswitches: the past and the future
Kavita K, Breaker RR. Discovering riboswitches: the past and the future. Trends In Biochemical Sciences 2022, 48: 119-141. PMID: 36150954, PMCID: PMC10043782, DOI: 10.1016/j.tibs.2022.08.009.Peer-Reviewed Original ResearchNa+ 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 spermidine riboswitch class in bacteria exploits a close variant of an aptamer for the enzyme cofactor S-adenosylmethionine
Salvail H, Balaji A, Roth A, Breaker R. A spermidine riboswitch class in bacteria exploits a close variant of an aptamer for the enzyme cofactor S-adenosylmethionine. Cell Reports 2023, 42: 113571. PMID: 38096053, PMCID: PMC10853860, DOI: 10.1016/j.celrep.2023.113571.Peer-Reviewed Original Research8-oxoguanine riboswitches in bacteria detect and respond to oxidative DNA damage
Dhakal S, Kavita K, Panchapakesan S, Roth A, Breaker R. 8-oxoguanine riboswitches in bacteria detect and respond to oxidative DNA damage. Proceedings Of The National Academy Of Sciences Of The United States Of America 2023, 120: e2307854120. PMID: 37748066, PMCID: PMC10556655, DOI: 10.1073/pnas.2307854120.Peer-Reviewed Original ResearchConceptsAptamer domainGene expressionLigand specificityOxidative damageLigand-binding pocketRiboswitch classesFamilies of bacteriaRare variantsRiboswitch aptamerCertain oxidative stressesExposure of cellsOxidative DNA damageRiboswitchGene associationsRNA aptamersDNA damageNucleotide poolBacteriaTarget ligandsOxidative stressMutationsNumerous alterationsPurine derivativesExpressionVariantsEvidence that OLE RNA is a component of a major stress‐responsive ribonucleoprotein particle in extremophilic bacteria
Breaker R, Harris K, Lyon S, Wencker F, Fernando C. Evidence that OLE RNA is a component of a major stress‐responsive ribonucleoprotein particle in extremophilic bacteria. Molecular Microbiology 2023, 120: 324-340. PMID: 37469248, DOI: 10.1111/mmi.15129.Peer-Reviewed Original ResearchConceptsOLE RNAPrecise biochemical functionFundamental cellular processesCell growthTOR complexesProtein partnersRibonucleoprotein complexesCellular processesRNP complexesBiochemical functionsGram-positive bacteriaNoncoding RNAsRibonucleoprotein particleExtremophilic bacteriaBacterial speciesGenetic disruptionStress conditionsDiverse pathwaysRNAMetabolic adaptationCell membraneExtreme environmentsCarbon sourceBacteriaComplexesScreening for small molecule inhibitors of SAH nucleosidase using an SAH riboswitch
Sadeeshkumar H, Balaji A, Sutherland A, Mootien S, Anthony K, Breaker R. Screening for small molecule inhibitors of SAH nucleosidase using an SAH riboswitch. Analytical Biochemistry 2023, 666: 115047. PMID: 36682579, PMCID: PMC11149561, DOI: 10.1016/j.ab.2023.115047.Peer-Reviewed Original ResearchConceptsHigh-throughput screenAutoinducer-2Reporter geneBacterial processesEssential bacterial processesGram-negative bacterial cellsQuorum sensing signalsΒ-galactosidase reporter geneSmall molecule inhibitorsAntibiotic drug discoveryNatural riboswitchesAntimicrobial drug developmentRNA elementsPhysiological signalingRiboswitchBacterial cellsMolecule inhibitorsS-adenosylmethionineEscherichia coliCritical functionsNew targetsGenesDrug discoverySmall moleculesPromising target
2022
Lithium-sensing riboswitch classes regulate expression of bacterial cation transporter genes
White N, Sadeeshkumar H, Sun A, Sudarsan N, Breaker R. Lithium-sensing riboswitch classes regulate expression of bacterial cation transporter genes. Scientific Reports 2022, 12: 19145. PMID: 36352003, PMCID: PMC9646797, DOI: 10.1038/s41598-022-20695-6.Peer-Reviewed Original Research
2008
Riboswitches in Eubacteria Sense the Second Messenger Cyclic Di-GMP
Sudarsan N, Lee E, Weinberg Z, Moy R, Kim J, Link K, Breaker R. Riboswitches in Eubacteria Sense the Second Messenger Cyclic Di-GMP. Science 2008, 321: 411-413. PMID: 18635805, PMCID: PMC5304454, DOI: 10.1126/science.1159519.Peer-Reviewed Original ResearchConceptsCyclic di-GMPVirulence gene expressionGene expressionSecond messenger cyclic di-GMPNumerous fundamental cellular processesCyclic di-guanosine monophosphateFundamental cellular processesExpression of genesGMP riboswitchRiboswitch classesFlagellum biosynthesisBiofilm lifestyleCellular processesDiverse speciesPilus formationSecond messengerCell differentiationRiboswitchBacterial speciesMessenger RNARNA dinucleotideSpeciesExpressionPhysiological changesRegulon