1994
SR proteins can compensate for the loss of U1 snRNP functions in vitro.
Tarn WY, Steitz JA. SR proteins can compensate for the loss of U1 snRNP functions in vitro. Genes & Development 1994, 8: 2704-2717. PMID: 7958927, DOI: 10.1101/gad.8.22.2704.Peer-Reviewed Original ResearchConceptsSR proteinsSplice site recognitionSplice siteU1 snRNPsU1 snRNP functionsEssential splicing factorPre-mRNA substrateSplice site choiceNative gel analysisSplice site selectionMethyl oligoribonucleotideCross-linking studiesSnRNP functionSplicing factorsU1 snRNPU1 snRNASite recognitionSite choiceGel analysisRescue splicingProteinSplicing systemIntronsSnRNPs
1990
Spliced leader RNA sequences can substitute for the essential 5′ end of U1 RNA during splicing in a mammalian in vitro system
Bruzik J, Steitz J. Spliced leader RNA sequences can substitute for the essential 5′ end of U1 RNA during splicing in a mammalian in vitro system. Cell 1990, 62: 889-899. PMID: 2168293, DOI: 10.1016/0092-8674(90)90264-f.Peer-Reviewed Original Research
1983
The U1 small nuclear RNA-protein complex selectively binds a 5′ splice site in vitro
Mount S, Pettersson I, Hinterberger M, Karmas A, Steitz J. The U1 small nuclear RNA-protein complex selectively binds a 5′ splice site in vitro. Cell 1983, 33: 509-518. PMID: 6190573, DOI: 10.1016/0092-8674(83)90432-4.Peer-Reviewed Original ResearchConceptsRNA-protein complexesSplice siteU1 snRNPGlobin RNAPartial proteinase K digestionU1 snRNPsMouse beta-globin geneBacteriophage T7 RNA polymeraseEucaryotic cell nucleusMessenger RNA splicingT7 RNA polymeraseRecombinant DNA clonesBeta-globin geneT1 ribonuclease digestionSplice site sequencesSmall intronsSnRNP proteinsRNA splicingSnRNP complexDNA clonesRNA polymeraseSnRNPSite sequenceRibonuclease digestionProteinase K digestion