2014
Principles of ion recognition in RNA: insights from the group II intron structures
Marcia M, Pyle AM. Principles of ion recognition in RNA: insights from the group II intron structures. RNA 2014, 20: 516-527. PMID: 24570483, PMCID: PMC3964913, DOI: 10.1261/rna.043414.113.Peer-Reviewed Original ResearchConceptsActive siteSite-bound ionsIon recognitionMetal ionsOrganic ionsLatter ionIon-binding sitesCatalytic ionsCrystal structureGU wobble pairsMonovalent ionsLarge RNA moleculesIonsStructural ionsBiophysical methodsGroup II intron structureGA mismatchesLong-range tertiary contactsRNA structureRNA foldingTertiary contactsWobble pairStructureCatalysisHeteronuclear
2000
[10] Using DNAzylnes to cut, process, and map RNA molecules for structural studies or modification
Pyle AM, Chu VT, Jankowsky E, Boudvillain M. [10] Using DNAzylnes to cut, process, and map RNA molecules for structural studies or modification. Methods In Enzymology 2000, 317: 140-146. PMID: 10829278, DOI: 10.1016/s0076-6879(00)17012-0.Peer-Reviewed Original ResearchConceptsStructural studiesTypes of DNAzymeTemplate-directed ligationDNAzyme reactionDNAzyme moleculesSimple DNA moleculesDNAzymeDivalent ionsAnalytical scaleMoleculesDNA moleculesAddition of Mg2Crystallographic applicationsRNA targetsRNA moleculesCatalytic coreIonsLong RNAsReactionModificationDifferent applicationsInexpensive wayRNA fragmentsMg2Incorporation