2008
Conserved motifs in both CPSF73 and CPSF100 are required to assemble the active endonuclease for histone mRNA 3′‐end maturation
Kolev NG, Yario TA, Benson E, Steitz JA. Conserved motifs in both CPSF73 and CPSF100 are required to assemble the active endonuclease for histone mRNA 3′‐end maturation. EMBO Reports 2008, 9: 1013-1018. PMID: 18688255, PMCID: PMC2572124, DOI: 10.1038/embor.2008.146.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid MotifsAmino Acid SequenceBase SequenceCell LineCleavage And Polyadenylation Specificity FactorConserved SequenceEndonucleasesEnzyme ActivationHeLa CellsHistonesHumansMolecular Sequence DataProtein Structure, TertiaryProtein SubunitsRNA 3' End ProcessingRNA PrecursorsRNA, MessengerConceptsPre-messenger RNAPolyadenylation specificity factorMammalian proteinsRNase ZConserved motifsHistone mRNASpecificity factorEndonucleolytic cleavageActive endonucleaseEndonuclease activityMBL familyComplex machineryMessenger RNAPoint mutationsCPSF73CPSF100Process of maturationMaturation processRNAProteinMotifMRNAMaturationEukaryotesCleavage
2007
U2 snRNP Binds Intronless Histone Pre-mRNAs to Facilitate U7-snRNP-Dependent 3′ End Formation
Friend K, Lovejoy AF, Steitz JA. U2 snRNP Binds Intronless Histone Pre-mRNAs to Facilitate U7-snRNP-Dependent 3′ End Formation. Molecular Cell 2007, 28: 240-252. PMID: 17964263, PMCID: PMC2149891, DOI: 10.1016/j.molcel.2007.09.026.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceCell NucleusDEAD-box RNA HelicasesHeLa CellsHistonesHumansIntronsMiceModels, MolecularOocytesProtein ConformationRibonucleoprotein, U2 Small NuclearRibonucleoprotein, U7 Small NuclearRibonucleoproteins, Small NuclearRNA 3' End ProcessingRNA PrecursorsRNA-Binding ProteinsRNA, MessengerTime FactorsXenopus laevis
2005
Symplekin and multiple other polyadenylation factors participate in 3′-end maturation of histone mRNAs
Kolev NG, Steitz JA. Symplekin and multiple other polyadenylation factors participate in 3′-end maturation of histone mRNAs. Genes & Development 2005, 19: 2583-2592. PMID: 16230528, PMCID: PMC1276732, DOI: 10.1101/gad.1371105.Peer-Reviewed Original ResearchConceptsTail elongationU7 small nuclear ribonucleoproteinCommon molecular machineryMammalian cell extractsCleavage stimulation factorPolyadenylation specificity factorSmall nuclear ribonucleoproteinMolecular machineryHistone mRNAProtein complexesMRNA cleavageSpecificity factorPolyadenylation factorsTranslational activationNuclear ribonucleoproteinSymplekinReconstitution experimentsCell extractsHeat-labile factorMessenger RNAHistonesMRNAStimulation factorSubunitsCytoplasmic
1996
Length suppression in histone messenger RNA 3′-end maturation: Processing defects of insertion mutant premessenger RNAs can be compensated by insertions into the U7 small nuclear RNA
Scharl E, Steitz J. Length suppression in histone messenger RNA 3′-end maturation: Processing defects of insertion mutant premessenger RNAs can be compensated by insertions into the U7 small nuclear RNA. Proceedings Of The National Academy Of Sciences Of The United States Of America 1996, 93: 14659-14664. PMID: 8962110, PMCID: PMC26191, DOI: 10.1073/pnas.93.25.14659.Peer-Reviewed Original ResearchConceptsHistone downstream elementU7 RNAHistone messenger RNASmall nuclear RNARNA processing systemSmall ribonucleoproteinPremessenger RNANuclear RNAPre-mRNAU7 small nuclear RNADownstream elementsCleavage siteRNAMessenger RNAXenopus oocytesBase pairingProcessing defectsU7First demonstrationHistonesRNAsRibonucleoproteinInsertionMRNASites
1995
Decreasing the distance between the two conserved sequence elements of histone pre-messenger RNA interferes with 3' processing in vitro.
Cho DC, Scharl EC, Steitz JA. Decreasing the distance between the two conserved sequence elements of histone pre-messenger RNA interferes with 3' processing in vitro. RNA 1995, 1: 905-14. PMID: 8548655, PMCID: PMC1369339.Peer-Reviewed Original ResearchAnimalsBase SequenceBinding SitesConserved SequenceHistonesMolecular Sequence DataMRNA Cleavage and Polyadenylation FactorsNuclear ProteinsNucleic Acid ConformationRibonucleoproteins, Small NuclearRNA PrecursorsRNA Processing, Post-TranscriptionalRNA-Binding ProteinsRNA, MessengerSequence DeletionSubstrate SpecificityTranscription, Genetic
1994
The site of 3′ end formation of histone messenger RNA is a fixed distance from the downstream element recognized by the U7 snRNP.
Scharl EC, Steitz JA. The site of 3′ end formation of histone messenger RNA is a fixed distance from the downstream element recognized by the U7 snRNP. The EMBO Journal 1994, 13: 2432-2440. PMID: 8194533, PMCID: PMC395109, DOI: 10.1002/j.1460-2075.1994.tb06528.x.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceCell NucleusCell-Free SystemCross-Linking ReagentsFurocoumarinsGuanosineHeLa CellsHistonesHumansMiceMolecular Sequence DataNucleic Acid ConformationProtein BindingRegulatory Sequences, Nucleic AcidRibonuclease HRibonucleoproteins, Small NuclearRNA Processing, Post-TranscriptionalRNA, MessengerStructure-Activity RelationshipSubstrate SpecificityConceptsHistone downstream elementU7 small nuclear ribonucleoproteinSmall nuclear ribonucleoproteinHistone messenger RNAInsertion mutantsEnd formationSite of cleavageEnd processingDownstream elementsA residuesMessenger RNAAnti-trimethylguanosine antibodyStem-loop structureWild-type substrateCross-linking studiesPremessenger RNANuclear ribonucleoproteinEnzymatic componentsNew cleavage siteNucleotides downstreamC residuesMolecular rulerCleavage siteRNAHistones
1993
Association with terminal exons in pre-mRNAs: a new role for the U1 snRNP?
Wassarman KM, Steitz JA. Association with terminal exons in pre-mRNAs: a new role for the U1 snRNP? Genes & Development 1993, 7: 647-659. PMID: 8384583, DOI: 10.1101/gad.7.4.647.Peer-Reviewed Original ResearchAdenoviridaeBase SequenceBinding SitesCross-Linking ReagentsDNA Mutational AnalysisExonsFurocoumarinsHeLa CellsHistonesHumansMolecular Sequence DataOligonucleotide ProbesPoly ARestriction MappingRibonucleoprotein, U1 Small NuclearRNA PrecursorsRNA Processing, Post-TranscriptionalRNA SplicingRNA, Small NuclearSimian virus 40
1991
Multiple processing-defective mutations in a mammalian histone pre-mRNA are suppressed by compensatory changes in U7 RNA both in vivo and in vitro.
Bond UM, Yario TA, Steitz JA. Multiple processing-defective mutations in a mammalian histone pre-mRNA are suppressed by compensatory changes in U7 RNA both in vivo and in vitro. Genes & Development 1991, 5: 1709-1722. PMID: 1885007, DOI: 10.1101/gad.5.9.1709.Peer-Reviewed Original ResearchConceptsHistone downstream elementHistone pre-mRNAMammalian histone pre-mRNAsPre-mRNAHeLa cellsBase pair regionMammalian histonesU7 geneSm snRNPsU7 snRNPGenetic evidenceU7 snRNAUnexpected toleranceU7 RNANuclear extractsDownstream elementsSuppressor geneCompensatory changesGenesBlock substitutionsRNAVivoSnRNPsSnRNPCells
1989
Each of the conserved sequence elements flanking the cleavage site of mammalian histone pre-mRNAs has a distinct role in the 3'-end processing reaction.
Mowry KL, Oh R, Steitz JA. Each of the conserved sequence elements flanking the cleavage site of mammalian histone pre-mRNAs has a distinct role in the 3'-end processing reaction. Molecular And Cellular Biology 1989, 9: 3105-3108. PMID: 2779556, PMCID: PMC362782, DOI: 10.1128/mcb.9.7.3105.Peer-Reviewed Original Research
1988
snRNP mediators of 3′ end processing: functional fossils?
Mowry K, Steitz J. snRNP mediators of 3′ end processing: functional fossils? Trends In Biochemical Sciences 1988, 13: 447-451. PMID: 2908086, DOI: 10.1016/0968-0004(88)90220-4.Peer-Reviewed Original ResearchConceptsGene expression apparatusMRNA 3' end formationHistone mRNA 3' end formationEukaryotic messenger RNAsRNA processing reactionsRNA recognitionEnd formationRNA moleculesEnd processingProcessing reactionsBase pairsEarly evolutionMessenger RNASnRNPsCurrent understandingMajor playersPolyadenylationSplicingRNAFossilsSequenceMaturationMediators
1987
Identification of the Human U7 snRNP as One of Several Factors Involved in the 3′ End Maturation of Histone Premessenger RNA's
Mowry K, Steitz J. Identification of the Human U7 snRNP as One of Several Factors Involved in the 3′ End Maturation of Histone Premessenger RNA's. Science 1987, 238: 1682-1687. PMID: 2825355, DOI: 10.1126/science.2825355.Peer-Reviewed Original ResearchConceptsU7 snRNPPre-mRNAEnd processingDownstream elementsCleavage siteSmall nuclear ribonucleoprotein complexesMammalian pre-mRNAHeLa cell extractsNuclear ribonucleoprotein complexesHistone pre-mRNAEnd maturationEukaryotic cellsRibonucleoprotein complexesPremessenger RNARNA moietySplicing reactionGene transcriptsCell extractsSnRNPMessenger RNARNABoth conserved signals on mammalian histone pre-mRNAs associate with small nuclear ribonucleoproteins during 3' end formation in vitro.
Mowry KL, Steitz JA. Both conserved signals on mammalian histone pre-mRNAs associate with small nuclear ribonucleoproteins during 3' end formation in vitro. Molecular And Cellular Biology 1987, 7: 1663-1672. PMID: 2955216, PMCID: PMC365266, DOI: 10.1128/mcb.7.5.1663.Peer-Reviewed Original ResearchConceptsSmall nuclear ribonucleoproteinEnd formationNuclear ribonucleoproteinSequence elementsSm small nuclear ribonucleoproteinsMouse histone genesHeLa cell nuclear extractsHistone H3 transcriptsHuman histone H3Trimethylguanosine cap structureCell nuclear extractsHistone pre-mRNAHairpin loop structureH3 transcriptsHistone genesMammalian histonesU RNAHistone H3MRNA substratesPre-mRNACap structureMRNA associatesNuclear extractsRNA fragmentsProcessing reactions