2012
A Dual Interaction between the DNA Damage Response Protein MDC1 and the RAG1 Subunit of the V(D)J Recombinase*
Coster G, Gold A, Chen D, Schatz DG, Goldberg M. A Dual Interaction between the DNA Damage Response Protein MDC1 and the RAG1 Subunit of the V(D)J Recombinase*. Journal Of Biological Chemistry 2012, 287: 36488-36498. PMID: 22942284, PMCID: PMC3476314, DOI: 10.1074/jbc.m112.402487.Peer-Reviewed Original ResearchMeSH KeywordsAdaptor Proteins, Signal TransducingAmino Acid MotifsBRCA1 ProteinCell Cycle ProteinsCell Line, TumorHistonesHomeodomain ProteinsHumansModels, BiologicalNuclear ProteinsPeptide MappingPhosphorylationProtein Structure, TertiaryRepetitive Sequences, Amino AcidTrans-ActivatorsVDJ RecombinasesConceptsDNA double-strand breaksDNA damage responseTandem BRCA1 C-terminal (BRCT) domainsC-terminusSpecific DNA double-strand breaksBRCA1 C-terminal domainC-terminal domainThreonine-rich repeatsDouble-strand breaksRAG1 subunitRAG recombinaseRAG2 proteinsDDR proteinsDamage responseRegulatory signalsBinding interfaceBreak siteHistone H2AXRAG activityRich repeatsNon-core regionsMDC1RAG1PhosphorylationSubsequent signal amplification
2008
Ebf1-dependent control of the osteoblast and adipocyte lineages
Hesslein DG, Fretz JA, Xi Y, Nelson T, Zhou S, Lorenzo JA, Schatz DG, Horowitz MC. Ebf1-dependent control of the osteoblast and adipocyte lineages. Bone 2008, 44: 537-546. PMID: 19130908, PMCID: PMC2657874, DOI: 10.1016/j.bone.2008.11.021.Peer-Reviewed Original ResearchConceptsNumber of osteoclastsBone formation parametersBone formation rateAdipocyte lineageBone marrow cellsOlfactory sensory neuronsSerum osteocalcinOsteoid volumeSensory neuronsAdipocyte numberBone marrowOsteoclast developmentMutant miceMarrow cellsMiceSubcutaneous sitesBone formationAdipocyte developmentStriking increaseDecreased depositionTranscription factorsOsteoblastsB cell fate specificationEBF1Adiposity
2005
B cells and osteoblast and osteoclast development
Horowitz MC, Bothwell AL, Hesslein DG, Pflugh DL, Schatz DG. B cells and osteoblast and osteoclast development. Immunological Reviews 2005, 208: 141-153. PMID: 16313346, DOI: 10.1111/j.0105-2896.2005.00328.x.Peer-Reviewed Original ResearchAnimalsB-LymphocytesCarrier ProteinsCell DifferentiationDNA-Binding ProteinsGlycoproteinsHumansInterleukin-7LymphopoiesisMembrane GlycoproteinsOsteoblastsOsteoclastsOsteogenesisOsteoprotegerinPAX5 Transcription FactorRANK LigandReceptor Activator of Nuclear Factor-kappa BReceptors, Cytoplasmic and NuclearReceptors, Tumor Necrosis FactorTrans-ActivatorsTranscription, GeneticInducible Gene Expression Using an Autoregulatory, Tetracycline‐Controlled System
Shockett P, Schatz D. Inducible Gene Expression Using an Autoregulatory, Tetracycline‐Controlled System. Current Protocols In Cell Biology 2005, 27: 20.8.1-20.8.10. PMID: 18228465, DOI: 10.1002/0471143030.cb2008s27.Peer-Reviewed Original ResearchConceptsInducible gene expressionSelectable markerGene expressionSecond selectable markerCell linesFibroblast cell lineTransient transfectionGene protein expressionResultant clonesStable linesMarker plasmidPlasmidProtein expressionAdherent cellsTransactivatorExpressionTransfectionCellsTargetGenesSupport protocolClonesLinesMarkersAutoregulatory
2002
Inducible, reversible hair loss in transgenic mice
Chen J, Kelz MB, Zeng G, Steffen C, Shockett PE, Terwilliger G, Schatz DG, Nestler EJ. Inducible, reversible hair loss in transgenic mice. Transgenic Research 2002, 11: 241-247. PMID: 12113456, DOI: 10.1023/a:1015619604318.Peer-Reviewed Original ResearchMeSH KeywordsAlopeciaAnimalsDisease Models, AnimalDoxycyclineGene Expression RegulationMiceMice, TransgenicTetracyclineTrans-ActivatorsConceptsTelogen effluviumInducible transgenic miceHair lossTransgenic miceReversible hair lossSkin pathologyHair loss phenotypeAnimal modelsMolecular abnormalitiesDecreased numberMiceHair folliclesAnagen phaseCommon typeEffluviumTelogen phasePresent findingsLoss phenotypeFolliclesPathologyMolecular mechanismsMorphological changesReporter luciferase geneLuciferase geneHigh levels
1995
A modified tetracycline-regulated system provides autoregulatory, inducible gene expression in cultured cells and transgenic mice.
Shockett P, Difilippantonio M, Hellman N, Schatz DG. A modified tetracycline-regulated system provides autoregulatory, inducible gene expression in cultured cells and transgenic mice. Proceedings Of The National Academy Of Sciences Of The United States Of America 1995, 92: 6522-6526. PMID: 7604026, PMCID: PMC41550, DOI: 10.1073/pnas.92.14.6522.Peer-Reviewed Original ResearchMeSH Keywords3T3 CellsAnimalsBlotting, WesternCells, CulturedDNA NucleotidyltransferasesGene Expression RegulationHerpes Simplex Virus Protein Vmw65MiceMice, TransgenicOpen Reading FramesPlasmidsRecombinant Fusion ProteinsRepressor ProteinsRestriction MappingRNA, MessengerSequence DeletionTetracyclineTrans-ActivatorsTransfectionVDJ RecombinasesConceptsInducible gene expressionGene expressionTetracycline-regulated gene expressionTranscriptional activation domainCultured cellsTetracycline-regulated systemTransgenic miceExpression of tTAAutoregulatory systemActivation domainTTA geneInducible promoterTetracycline repressorInducible expressionFusion proteinTransactivator proteinConstitutive expressionTransgenic animalsGene 1Induced levelsRecombination activityMost tissuesConstitutive systemProteinCell lines