2013
c‑Abl Phosphorylates E6AP and Regulates Its E3 Ubiquitin Ligase Activity
Chan A, Grossman T, Zuckerman V, Di Giammartino D, Moshel O, Scheffner M, Monahan B, Pilling P, Jiang Y, Haupt S, Schueler-Furman O, Haupt Y. c‑Abl Phosphorylates E6AP and Regulates Its E3 Ubiquitin Ligase Activity. Biochemistry 2013, 52: 3119-3129. PMID: 23581475, DOI: 10.1021/bi301710c.Peer-Reviewed Original Research
2003
Disruption of the genomic imprint in trans with homologous recombination at Snrpn in ES cells
Tsai T, Bressler J, Jiang Y, Beaudet AL. Disruption of the genomic imprint in trans with homologous recombination at Snrpn in ES cells. Genesis 2003, 37: 151-161. PMID: 14666508, DOI: 10.1002/gene.10237.Peer-Reviewed Original ResearchConceptsPaternal alleleImprinting centerMaternal alleleSomatic mammalian cellsTrans-acting factorsActivation of expressionSNURF-SNRPN geneMouse ES cellsChromatin domainsGenomic imprintsImprinted domainMammalian cellsHomologous recombinationGene targetingHomologous associationES cellsComplete demethylationSNURF-SNRPNPrader-Willi syndromeExon 2AllelesGenesRecombinantsCellsDomainRequirement of e6ap and the features of human papillomavirus e6 necessary to support degradation of p53
Cooper B, Schneider S, Bohl J, Jiang Y, Beaudet A, Pol S. Requirement of e6ap and the features of human papillomavirus e6 necessary to support degradation of p53. Virology 2003, 306: 87-99. PMID: 12620801, DOI: 10.1016/s0042-6822(02)00012-0.Peer-Reviewed Original Research
1997
The E6–AP Ubiquitin–Protein Ligase (UBE3A) Gene Is Localized within a Narrowed Angelman Syndrome Critical Region
Sutcliffe J, Jiang Y, Galjaard R, Matsuura T, Fang P, Kubota T, Christian S, Bressler J, Cattanach B, Ledbetter D, Beaudet A. The E6–AP Ubiquitin–Protein Ligase (UBE3A) Gene Is Localized within a Narrowed Angelman Syndrome Critical Region. Genome Research 1997, 7: 368-377. PMID: 9110176, PMCID: PMC139148, DOI: 10.1101/gr.7.4.368.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAngelman SyndromeAnimalsBlotting, NorthernBlotting, SouthernChromosome AberrationsChromosome MappingChromosomes, Artificial, YeastChromosomes, Human, Pair 15Cloning, MolecularCosmidsElectrophoresis, Gel, Pulsed-FieldFemaleGene DeletionGene DosageGene Expression Regulation, DevelopmentalGenetic MarkersGenomic ImprintingHumansIn Situ HybridizationLigasesMaleMiceMice, Mutant StrainsMolecular Sequence DataPaternityPrader-Willi SyndromeSequence Homology, Amino AcidSequence Homology, Nucleic AcidTissue DistributionTranscription, GeneticTranslocation, GeneticUbiquitin-Protein LigasesConceptsLigase geneUbiquitin protein ligase geneAngelman syndromeEntire transcriptional unitCandidate regionsMaternal-specific expressionE6-AP ubiquitinTranscriptional unitsPaternal deficiencyRT-PCR analysisMouse homologPrader-Willi syndromePaternal uniparental disomyPhysical mapDe novo truncating mutationsNovo truncating mutationsRecent identificationUBE3A locusMouse tissuesGenesUbe3a expressionLociUniparental disomyProtein levelsAS regionDe novo truncating mutations in E6-AP ubiquitin-protein ligase gene (UBE3A) in Angelman syndrome
Matsuura T, Sutcliffe J, Fang P, Galjaard R, Jiang Y, Benton C, Rommens J, Beaudet A. De novo truncating mutations in E6-AP ubiquitin-protein ligase gene (UBE3A) in Angelman syndrome. Nature Genetics 1997, 15: 74-77. PMID: 8988172, DOI: 10.1038/ng0197-74.Peer-Reviewed Original ResearchConceptsGene productsAngelman syndromeNovo truncating mutationsUbiquitin protein ligase geneUbiquitin-dependent proteolytic pathwayE6-AP ubiquitin-protein ligaseHuman genetic disordersUbiquitin-protein ligaseUBE3A geneTruncating mutationsEvidence of expressionUnlikely candidate geneGenetic disordersLigase geneParental allelesAS genesHuman chromosomesPaternal uniparental disomyCandidate genesDe novo truncating mutationsProteolytic pathwayNovo nonsense mutationGenesIntragenic mutationsMolecular defects