2001
Generating new ligand-binding RNAs by affinity maturation and disintegration of allosteric ribozymes.
Soukup G, DeRose E, Koizumi M, Breaker R. Generating new ligand-binding RNAs by affinity maturation and disintegration of allosteric ribozymes. RNA 2001, 7: 524-36. PMID: 11345431, PMCID: PMC1370106, DOI: 10.1017/s1355838201002175.Peer-Reviewed Original ResearchConceptsEffector-binding domainAllosteric ribozymesRandom mutagenesisMolecular switchLigand-binding RNAsRNA molecular switchCyclic nucleotide monophosphatesModular rational designSecondary structure organizationSpecific effector moleculesGenetic switchDirect mutational analysisNucleotide covariationsCatalytic domainPhylogeny dataMutational analysisModular engineeringCatalytic moduleNucleic acid structuresNucleotide monophosphatesEffector moleculesAffinity maturationRibozymeMutagenesisHammerhead ribozyme
2000
Altering molecular recognition of RNA aptamers by allosteric selection11Edited by D. E. Draper
Soukup G, Emilsson G, Breaker R. Altering molecular recognition of RNA aptamers by allosteric selection11Edited by D. E. Draper. Journal Of Molecular Biology 2000, 298: 623-632. PMID: 10788325, DOI: 10.1006/jmbi.2000.3704.Peer-Reviewed Original Research
1999
Allosteric selection of ribozymes that respond to the second messengers cGMP and cAMP
Koizumi M, Soukup G, Kerr J, Breaker R. Allosteric selection of ribozymes that respond to the second messengers cGMP and cAMP. Nature Structural & Molecular Biology 1999, 6: 1062-1071. PMID: 10542100, DOI: 10.1038/14947.Peer-Reviewed Original ResearchConceptsRNA molecular switchGenetic control elementsMolecular recognition characteristicsEmergence of ribozymesSecond messenger cGMPRNAs exhibitAllosteric ribozymesRNA transcriptsCellular RNASelective sensorCAMP additionMolecular switchFold activationCatalytic rateRecognition characteristicsRibozymeControl elementsEffector compoundsHammerhead ribozymeChemical agentsCompoundsStructural characteristicsSpecific nucleosideNew combinatorial strategyCombinatorial strategies
1997
Examination of the catalytic fitness of the hammerhead ribozyme by in vitro selection.
Tang J, Breaker R. Examination of the catalytic fitness of the hammerhead ribozyme by in vitro selection. RNA 1997, 3: 914-25. PMID: 9257650, PMCID: PMC1369536.Peer-Reviewed Original ResearchConceptsConsensus sequenceATP-binding RNA aptamerCatalytic fitnessHammerhead ribozymeAbsence of ATPRNA poolAllosteric ribozymesVitro SelectionRNA aptamersCatalytic functionSequence variantsAllosteric interactionsCombinatorial poolsRibozymeTranscriptionATPRNACatalytic rateSequenceHammerhead domainRibozyme constructsFitnessAllosteric delayPoolSimilar strategies