Featured Publications
HMCES protects immunoglobulin genes specifically from deletions during somatic hypermutation
Wu L, Shukla V, Yadavalli AD, Dinesh RK, Xu D, Rao A, Schatz DG. HMCES protects immunoglobulin genes specifically from deletions during somatic hypermutation. Genes & Development 2022, 36: 433-450. PMID: 35450882, PMCID: PMC9067407, DOI: 10.1101/gad.349438.122.Peer-Reviewed Original ResearchAnimalsCytidine DeaminaseDNADNA-Binding ProteinsGenes, ImmunoglobulinImmunoglobulin Class SwitchingMiceSomatic Hypermutation, ImmunoglobulinUracilTopologically Associated Domains Delineate Susceptibility to Somatic Hypermutation
Senigl F, Maman Y, Dinesh RK, Alinikula J, Seth RB, Pecnova L, Omer AD, Rao SSP, Weisz D, Buerstedde JM, Aiden EL, Casellas R, Hejnar J, Schatz DG. Topologically Associated Domains Delineate Susceptibility to Somatic Hypermutation. Cell Reports 2019, 29: 3902-3915.e8. PMID: 31851922, PMCID: PMC6980758, DOI: 10.1016/j.celrep.2019.11.039.Peer-Reviewed Original ResearchCell Line, TumorCytidine DeaminaseEnhancer Elements, GeneticHEK293 CellsHumansLentivirusMaleMutationPlasmidsRNA Polymerase IISomatic Hypermutation, Immunoglobulin
2022
Ig Enhancers Increase RNA Polymerase II Stalling at Somatic Hypermutation Target Sequences.
Tarsalainen A, Maman Y, Meng FL, Kyläniemi MK, Soikkeli A, Budzyńska P, McDonald JJ, Šenigl F, Alt FW, Schatz DG, Alinikula J. Ig Enhancers Increase RNA Polymerase II Stalling at Somatic Hypermutation Target Sequences. The Journal Of Immunology 2022, 208: 143-154. PMID: 34862258, PMCID: PMC8702490, DOI: 10.4049/jimmunol.2100923.Peer-Reviewed Original ResearchConceptsPol IIMutating geneSomatic hypermutationTarget genesChicken DT40 B cellsRNA polymerase II stallingIg genesHistone variant H3.3Locus-specific targetingPol II occupancyAID-mediated mutationsDT40 B cellsRNA polymerase IILevels of H3K27acFull-length transcriptsVariant H3.3Antisense transcriptionTranscriptional outputPolymerase IIGenetic diversityMechanistic basisBurkitt's lymphoma cellsGeneration of AbsGenesDIVAC
2020
Disease-associated CTNNBL1 mutation impairs somatic hypermutation by decreasing nuclear AID
Kuhny M, Forbes LR, Çakan E, Vega-Loza A, Kostiuk V, Dinesh RK, Glauzy S, Stray-Pedersen A, Pezzi AE, Hanson IC, Vargas-Hernandez A, Xu ML, Akdemir Z, Jhangiani SN, Muzny DM, Gibbs RA, Lupski JR, Chinn IK, Schatz DG, Orange JS, Meffre E. Disease-associated CTNNBL1 mutation impairs somatic hypermutation by decreasing nuclear AID. Journal Of Clinical Investigation 2020, 130: 4411-4422. PMID: 32484799, PMCID: PMC7410074, DOI: 10.1172/jci131297.Peer-Reviewed Original ResearchConceptsB cellsActivation-induced cytidine deaminaseHealthy donor counterpartsIsotype-switched B cellsCommon variable immunodeficiencyMemory B cellsSomatic hypermutationAutoimmune cytopeniasDecreased incidenceVariable immunodeficiencyB cell linesUnderlying molecular defectsNuclear AIDPatient's EBVRamos B cellsPatientsProtein 1Cell linesMolecular defectsCellsCytidine deaminaseMutations
2019
Transcription factor binding at Ig enhancers is linked to somatic hypermutation targeting
Dinesh RK, Barnhill B, Ilanges A, Wu L, Michelson DA, Senigl F, Alinikula J, Shabanowitz J, Hunt DF, Schatz DG. Transcription factor binding at Ig enhancers is linked to somatic hypermutation targeting. European Journal Of Immunology 2019, 50: 380-395. PMID: 31821534, PMCID: PMC7202714, DOI: 10.1002/eji.201948357.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsChickensGenes, ImmunoglobulinHumansSomatic Hypermutation, ImmunoglobulinTranscription FactorsConceptsActivation-induced cytidine deaminaseGene conversionSomatic hypermutationIg genesTranscription factor family membersTrans-acting factorsFactor family membersClass switch recombinationEnhancer-like sequenceRamos B cell lineIgH intronic enhancerSecondary diversificationTranscription factorsE-boxFactor bindingChIP assaysIntronic enhancerReporter assaysB cell linesSpecific DNASwitch recombinationSHM targetingIg enhancersCytidine deaminaseNovel insights
2016
Bcl6 Is Required for Somatic Hypermutation and Gene Conversion in Chicken DT40 Cells
Williams AM, Maman Y, Alinikula J, Schatz DG. Bcl6 Is Required for Somatic Hypermutation and Gene Conversion in Chicken DT40 Cells. PLOS ONE 2016, 11: e0149146. PMID: 26900682, PMCID: PMC4762950, DOI: 10.1371/journal.pone.0149146.Peer-Reviewed Original ResearchConceptsDT40 cellsGene conversionTarget genesClass switch recombinationGene bodiesSomatic hypermutationB cell gene expression programChicken DT40 B cellsBCL6 functionCell gene expression programChicken DT40 cellsDT40 B cellsGene expression programsRNA polymerase IIDeficient DT40 cellsTranscription start siteExpression of AIDAbsence of Bcl6High-level expressionB cellsExpression programsPolymerase IIPol IIStart siteTranscriptional features
2014
Targeting Of Somatic Hypermutation By immunoglobulin Enhancer And Enhancer-Like Sequences
Buerstedde JM, Alinikula J, Arakawa H, McDonald JJ, Schatz DG. Targeting Of Somatic Hypermutation By immunoglobulin Enhancer And Enhancer-Like Sequences. PLOS Biology 2014, 12: e1001831. PMID: 24691034, PMCID: PMC3972084, DOI: 10.1371/journal.pbio.1001831.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodiesBinding SitesB-LymphocytesCell LineChickensCytidine DeaminaseE-Box ElementsEnhancer Elements, GeneticGene Knockout TechniquesGreen Fluorescent ProteinsHumansImmunoglobulin kappa-ChainsImmunoglobulin lambda-ChainsLymphocyte ActivationMEF2 Transcription FactorsMiceMutationNF-kappa BSequence AlignmentSomatic Hypermutation, ImmunoglobulinTranscription, GeneticUracil-DNA GlycosidaseConceptsSomatic hypermutationIg enhancersNovel regulatory functionStimulation of transcriptionEnhancer-like elementCytidine deaminase proteinEnhancer-like sequenceActivation-induced cytidine deaminase proteinGene specificityTranscriptional roleHeavy chain intron enhancerTranscription unitGenetic diversityEts familyE-boxChicken cellsRegulatory functionsIntron enhancerFull activationImmunoglobulin genesTarget sequenceImmunoglobulin enhancerPoint mutationsEnhancerTranscriptionInduction of homologous recombination between sequence repeats by the activation induced cytidine deaminase (AID) protein
Buerstedde JM, Lowndes N, Schatz DG. Induction of homologous recombination between sequence repeats by the activation induced cytidine deaminase (AID) protein. ELife 2014, 3: e03110. PMID: 25006166, PMCID: PMC4080448, DOI: 10.7554/elife.03110.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceB-LymphocytesCell LineChickensCrossing Over, GeneticCytidine DeaminaseGene ConversionGenes, ReporterGreen Fluorescent ProteinsHomologous RecombinationHumansImmunoglobulin Switch RegionLuminescent ProteinsMiceModels, GeneticMolecular Sequence DataNucleic Acid HeteroduplexesRecombinational DNA RepairRepetitive Sequences, Nucleic AcidSequence DeletionSequence Homology, Nucleic AcidSomatic Hypermutation, ImmunoglobulinConceptsHomologous recombinationCytidine deaminase proteinSequence repeatsCytidine deaminationDNA end resectionHundreds of basesAnalysis of recombinantsVertebrate cellsGene conversionRepeat recombinationEnd resectionHolliday junctionsHomologous sequencesSequence homologyReporter transgeneStrand invasionIntergenic deletionRecombinogenic activityImmunoglobulin lociRepeatsSomatic hypermutationHeteroduplex formationRecombinationProteinDeamination
2013
A Critical Context-Dependent Role for E Boxes in the Targeting of Somatic Hypermutation
McDonald JJ, Alinikula J, Buerstedde JM, Schatz DG. A Critical Context-Dependent Role for E Boxes in the Targeting of Somatic Hypermutation. The Journal Of Immunology 2013, 191: 1556-1566. PMID: 23836058, PMCID: PMC3735716, DOI: 10.4049/jimmunol.1300969.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBinding SitesB-LymphocytesCells, CulturedChickensCytidine DeaminaseDNA, RecombinantE-Box ElementsEnhancer Elements, GeneticGenes, Immunoglobulin Light ChainGenes, ReporterGreen Fluorescent ProteinsImmunoglobulin Variable RegionMutationProtein BindingSomatic Hypermutation, ImmunoglobulinTranscription Factor 3TransfectionTransgenesConceptsE-boxSomatic hypermutationChicken DT40 B cellsDT40 B cellsNon-Ig lociOff-target mutationsActivation-induced cytidine deaminaseContext-dependent roleShort DNA sequencesSequence motifsDNA sequencesTarget genesIg genesSequence contextAffinity of AbsDNA damageCytidine deaminaseRepertoire diversificationMutationsGenesMotifSequenceFunctional hierarchyHypermutationAg stimulationMultiple Transcription Factor Binding Sites Predict AID Targeting in Non-Ig Genes
Duke JL, Liu M, Yaari G, Khalil AM, Tomayko MM, Shlomchik MJ, Schatz DG, Kleinstein SH. Multiple Transcription Factor Binding Sites Predict AID Targeting in Non-Ig Genes. The Journal Of Immunology 2013, 190: 3878-3888. PMID: 23514741, PMCID: PMC3689293, DOI: 10.4049/jimmunol.1202547.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBinding SitesB-Lymphocyte SubsetsCytidine DeaminaseE-Box ElementsGenes, ImmunoglobulinMiceMice, Inbred BALB CMice, KnockoutMice, TransgenicPredictive Value of TestsSomatic Hypermutation, ImmunoglobulinTranscription FactorsConceptsTranscription Factor Binding SitesAID-induced lesionsNon-Ig genesGenome instabilityTranscription factorsAberrant targetingSequence dataCertain genesGenesAID targetingGerminal center B cellsSomatic mutationsLikely targetBinding sitesAID targetsTargetingClassification tree modelMistargetingB cellsLociMechanismTargetMutationsSites
2012
Identification of Core DNA Elements That Target Somatic Hypermutation
Kohler KM, McDonald JJ, Duke JL, Arakawa H, Tan S, Kleinstein SH, Buerstedde JM, Schatz DG. Identification of Core DNA Elements That Target Somatic Hypermutation. The Journal Of Immunology 2012, 189: 5314-5326. PMID: 23087403, PMCID: PMC3664039, DOI: 10.4049/jimmunol.1202082.Peer-Reviewed Original ResearchMeSH Keywords3' Flanking RegionAnimalsB-LymphocytesCells, CulturedChickensChromatin ImmunoprecipitationCytidine DeaminaseDNAEnhancer Elements, GeneticGenes, ImmunoglobulinGenetic LociImmunoassayImmunoglobulin Variable RegionMutationPhosphorylationRNA Polymerase IISerineSomatic Hypermutation, ImmunoglobulinTranscription, GeneticConceptsActivation-induced deaminaseDNA elementsSomatic hypermutationChicken DT40 B cellsIg lociChromatin immunoprecipitation experimentsDT40 B cellsRNA polymerase IISystematic deletion analysisL chain lociNon-Ig genesCore DNA elementSerine 5Epigenetic marksPolymerase IITranscriptional elongationMutational machineryDeletion analysisReporter cassetteImmunoprecipitation experimentsDeoxycytosine residuesIg genesDNA damageChain locusLociAID-Targeting and Hypermutation of Non-Immunoglobulin Genes Does Not Correlate with Proximity to Immunoglobulin Genes in Germinal Center B Cells
Gramlich HS, Reisbig T, Schatz DG. AID-Targeting and Hypermutation of Non-Immunoglobulin Genes Does Not Correlate with Proximity to Immunoglobulin Genes in Germinal Center B Cells. PLOS ONE 2012, 7: e39601. PMID: 22768095, PMCID: PMC3387148, DOI: 10.1371/journal.pone.0039601.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsB-LymphocytesCytidine DeaminaseGenes, ImmunoglobulinGenetic LociGerminal CenterHumansImmunoglobulin Heavy ChainsImmunoglobulin Light ChainsMiceMice, TransgenicProto-Oncogene Proteins c-mycSomatic Hypermutation, ImmunoglobulinConceptsNon-Ig genesC-MycIg genesAID targetingGerminal center B cellsDouble-strand break endsImportant regulatory elementsNon-immunoglobulin genesMYC transgeneHeavy chain geneRegulatory elementsBreak endsIg heavy chain genesIg lociHuman MYCGenesB cellsSuch translocationsImmunoglobulin lociImmunoglobulin genesTranslocation partnersChain geneHuman Burkitt lymphomaSomatic hypermutationNuclear position
2009
Balancing AID and DNA repair during somatic hypermutation
Liu M, Schatz DG. Balancing AID and DNA repair during somatic hypermutation. Trends In Immunology 2009, 30: 173-181. PMID: 19303358, DOI: 10.1016/j.it.2009.01.007.Peer-Reviewed Original Research
2007
Role of Activation-Induced Deaminase Protein Kinase A Phosphorylation Sites in Ig Gene Conversion and Somatic Hypermutation
Chatterji M, Unniraman S, McBride KM, Schatz DG. Role of Activation-Induced Deaminase Protein Kinase A Phosphorylation Sites in Ig Gene Conversion and Somatic Hypermutation. The Journal Of Immunology 2007, 179: 5274-5280. PMID: 17911613, DOI: 10.4049/jimmunol.179.8.5274.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAmino Acid SubstitutionAnimalsAvian ProteinsCell LineChickensCyclic AMP-Dependent Protein KinasesCytidine DeaminaseEnzyme ActivationGene ConversionGenes, ImmunoglobulinHumansMiceMolecular Sequence DataPhosphorylationSerineSomatic Hypermutation, ImmunoglobulinZebrafish ProteinsConceptsReplication protein AActivation-induced deaminaseProtein kinase AClass switch recombinationGene conversionDT40 cellsPhosphorylation sitesSomatic hypermutationProtein kinase A (PKA) phosphorylation siteChicken DT40 cellsIg gene conversionEfficient gene conversionConsensus target siteIg gene diversificationGene diversificationSerine 38Cytosine residuesKinase ASwitch recombinationIg genesResidue interferesFish proteinTarget siteProtein AS38Strand-Biased Spreading of Mutations During Somatic Hypermutation
Unniraman S, Schatz DG. Strand-Biased Spreading of Mutations During Somatic Hypermutation. Science 2007, 317: 1227-1230. PMID: 17761884, DOI: 10.1126/science.1145065.Peer-Reviewed Original ResearchTargeting of AID‐Mediated Sequence Diversification by cis‐Acting Determinants
Yang SY, Schatz DG. Targeting of AID‐Mediated Sequence Diversification by cis‐Acting Determinants. Advances In Immunology 2007, 94: 109-125. PMID: 17560273, DOI: 10.1016/s0065-2776(06)94004-8.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibody DiversityCytidine DeaminaseHumansImmunoglobulin Class SwitchingSomatic Hypermutation, ImmunoglobulinConceptsActivation-induced cytidine deaminaseSequence diversificationFeatures of chromatinTranscriptional control elementsCis-acting determinantsClass switch recombinationGene conversionDiversification processMolecular mechanismsIg lociSwitch recombinationIg genesAntibody diversityImmunoglobulin genesCytidine deaminaseSomatic hypermutationControl elementsTranscriptionGenesDiversificationRecombinationChromatinLociDiversityPermissive
2006
Control of gene conversion and somatic hypermutation by immunoglobulin promoter and enhancer sequences
Yang SY, Fugmann SD, Schatz DG. Control of gene conversion and somatic hypermutation by immunoglobulin promoter and enhancer sequences. Journal Of Experimental Medicine 2006, 203: 2919-2928. PMID: 17178919, PMCID: PMC2118177, DOI: 10.1084/jem.20061835.Peer-Reviewed Original ResearchActinsAnimalsBacteriophage T7B-LymphocytesCell Line, TumorCytidine DeaminaseEnhancer Elements, GeneticGene ConversionGene DeletionGene ExpressionGenes, Immunoglobulin Light ChainImmunoglobulin Heavy ChainsImmunoglobulin MMutationPeptide Elongation Factor 1Promoter Regions, GeneticReceptors, Antigen, B-CellSomatic Hypermutation, ImmunoglobulinTranscription, GeneticTransfectionTargeting of somatic hypermutation
Odegard VH, Schatz DG. Targeting of somatic hypermutation. Nature Reviews Immunology 2006, 6: 573-583. PMID: 16868548, DOI: 10.1038/nri1896.Peer-Reviewed Original ResearchAnimalsCytidine DeaminaseEnhancer Elements, GeneticHistonesHumansImmunoglobulinsLymphoma, B-CellModels, GeneticSomatic Hypermutation, ImmunoglobulinRoles of the Ig κ Light Chain Intronic and 3′ Enhancers in Igk Somatic Hypermutation
Inlay MA, Gao HH, Odegard VH, Lin T, Schatz DG, Xu Y. Roles of the Ig κ Light Chain Intronic and 3′ Enhancers in Igk Somatic Hypermutation. The Journal Of Immunology 2006, 177: 1146-1151. PMID: 16818772, DOI: 10.4049/jimmunol.177.2.1146.Peer-Reviewed Original ResearchMeSH Keywords3' Untranslated RegionsAnimalsB-LymphocytesCells, CulturedDown-RegulationEnhancer Elements, GeneticGene DeletionGene Expression RegulationGerminal CenterImmunoglobulin kappa-ChainsIntronsLymphocyte ActivationMiceMice, KnockoutMice, TransgenicRNA, MessengerSomatic Hypermutation, ImmunoglobulinSpleenAID and Igh switch region-Myc chromosomal translocations
Unniraman S, Schatz DG. AID and Igh switch region-Myc chromosomal translocations. DNA Repair 2006, 5: 1259-1264. PMID: 16784901, DOI: 10.1016/j.dnarep.2006.05.019.Peer-Reviewed Original Research