2022
A retrospective cohort analysis of the Yale pediatric genomics discovery program
Al‐Ali S, Jeffries L, Faustino EVS, Ji W, Mis E, Konstantino M, Zerillo C, Jiang Y, Spencer‐Manzon M, Bale A, Zhang H, McGlynn J, McGrath JM, Tremblay T, Brodsky NN, Lucas CL, Pierce R, Deniz E, Khokha MK, Lakhani SA. A retrospective cohort analysis of the Yale pediatric genomics discovery program. American Journal Of Medical Genetics Part A 2022, 188: 2869-2878. PMID: 35899841, PMCID: PMC9474639, DOI: 10.1002/ajmg.a.62918.Peer-Reviewed Original ResearchConceptsRetrospective cohort analysisNext-generation sequencingCohort analysisSystem abnormalitiesImmune system abnormalitiesCardiovascular system abnormalitiesFunctional molecular analysesNovel genesPrecise molecular diagnosisClinical characteristicsFurther genetic evaluationDiscovery programsComplex patientsMultisystem diseaseDisease genesPediatric providersRare genetic diseaseNew diagnosisPhenotype relationshipsPatientsGenetic diseasesMolecular analysisDiagnosisParticipant demographicsNGS results
2021
Rho-GTPase Activating Protein myosin MYO9A identified as a novel candidate gene for monogenic focal segmental glomerulosclerosis
Li Q, Gulati A, Lemaire M, Nottoli T, Bale A, Tufro A. Rho-GTPase Activating Protein myosin MYO9A identified as a novel candidate gene for monogenic focal segmental glomerulosclerosis. Kidney International 2021, 99: 1102-1117. PMID: 33412162, PMCID: PMC8076076, DOI: 10.1016/j.kint.2020.12.022.Peer-Reviewed Original ResearchConceptsRhoA activityRho-GAP domainActin stress fiber formationCell junction assemblySmall GTPase proteinsNovel candidate genesStress fiber formationBundles actinCytoskeleton regulationGTPase proteinsActomyosin contractilityJunction assemblyMYO9AAutosomal dominant focal segmental glomerulosclerosisCandidate genesGene contributionCytoskeletal apparatusUnconventional myosinNovel componentRhoA geneWhole-exome sequencingGene editingFSGS phenotypeMolecular causesCalmodulin interaction
2017
Application of Whole Exome Sequencing in the Clinical Diagnosis and Management of Inherited Cardiovascular Diseases in Adults
Seidelmann SB, Smith E, Subrahmanyan L, Dykas D, Abou Ziki MD, Azari B, Hannah-Shmouni F, Jiang Y, Akar JG, Marieb M, Jacoby D, Bale AE, Lifton RP, Mani A. Application of Whole Exome Sequencing in the Clinical Diagnosis and Management of Inherited Cardiovascular Diseases in Adults. Circulation Genomic And Precision Medicine 2017, 10: e001573. PMID: 28087566, PMCID: PMC5245580, DOI: 10.1161/circgenetics.116.001573.Peer-Reviewed Original ResearchConceptsWhole-exome sequencingSudden cardiac deathCardiovascular diseaseClinical diagnosisExome sequencingCardiac deathInherited cardiovascular diseaseCentre of careNovel candidate genesValuable screening toolAdult patientsRisk stratificationPrimary insultCardiac functionGenetic testingScreening toolDiagnosisCVD genesGenetic causeCardiovascular geneticsGenetic panelSuccess rateExome databasesPotential disease associationsPatients
2016
Defining the polyposis/colorectal cancer phenotype associated with the Ashkenazi GREM1 duplication: counselling and management recommendations
ZIAI J, MATLOFF E, CHOI J, KOMBO N, MATERIN M, BALE AE. Defining the polyposis/colorectal cancer phenotype associated with the Ashkenazi GREM1 duplication: counselling and management recommendations. Genetics Research 2016, 98: e5. PMID: 26947005, PMCID: PMC6865171, DOI: 10.1017/s0016672316000021.Peer-Reviewed Original ResearchConceptsMixed polyposisExtensive genetic testingComprehensive clinical evaluationColorectal cancer phenotypeCancer phenotypeHereditary colon cancerAutosomal dominant conditionClinical evaluationAshkenazi patientsColon cancer phenotypeColon cancerJuvenile polypsJewish patientsAshkenazi Jewish familiesGenetic testingPolyposisPatientsDominant conditionColon cancer genesPrevious reportsPhenotypeCancer genesManagement recommendations
2011
Host Phenotype Characteristics and MC1R in Relation to Early-Onset Basal Cell Carcinoma
Ferrucci LM, Cartmel B, Molinaro AM, Gordon PB, Leffell DJ, Bale AE, Mayne ST. Host Phenotype Characteristics and MC1R in Relation to Early-Onset Basal Cell Carcinoma. Journal Of Investigative Dermatology 2011, 132: 1272-1279. PMID: 22158557, PMCID: PMC3305835, DOI: 10.1038/jid.2011.402.Peer-Reviewed Original ResearchConceptsDermatopathology databaseSkin reactionsCase statusBasal cell carcinoma incidenceMelanocortin 1 receptor gene variantsNon-synonymous variantsBenign skin conditionsBasal cell carcinomaReceptor gene variantsCarcinoma incidenceCell carcinomaBCC riskEpidemiologic studiesSelf-reported phenotypesLower riskSkin conditionsBCC casesSkin cancerOlder populationYoung individualsGene variantsPhenotype-genotype interactionsHost characteristicsPhenotype characteristicSkin color
2009
Characterization of DNA damage-dependent cell cycle checkpoints in a menin-deficient model
Kottemann MC, Bale AE. Characterization of DNA damage-dependent cell cycle checkpoints in a menin-deficient model. DNA Repair 2009, 8: 944-952. PMID: 19608464, PMCID: PMC2745199, DOI: 10.1016/j.dnarep.2009.06.001.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAtaxia Telangiectasia Mutated ProteinsCell CycleCell Cycle ProteinsCyclin-Dependent Kinase Inhibitor p21DNA DamageEmbryo, MammalianFibroblastsG1 PhaseHistone-Lysine N-MethyltransferaseMiceModels, BiologicalMutagensMutationMyeloid-Lymphoid Leukemia ProteinPhenotypePromoter Regions, GeneticProtein BindingProtein Serine-Threonine KinasesProto-Oncogene ProteinsRadiation, IonizingS PhaseTumor Suppressor Protein p53Up-RegulationConceptsP21 promoterDNA damage-dependent mannerPositive transcriptional regulatorDamage-dependent mannerNormal cellular physiologyCell cycle controlLoss of Men1Intra-S checkpointCell cycle checkpointsMouse embryonic fibroblastsCyclin-dependent kinase inhibitorG1/STranscriptional regulationTranscriptional regulatorsCheckpoint responseCellular physiologyCycle checkpointsHistone methyltransferaseDNA repairEmbryonic fibroblastsTranscriptional capacityCycle controlTarget p21MeninCancer pathogenesis
2005
Clinical testing for multiple endocrine neoplasia type 1 in a DNA diagnostic laboratory
Klein RD, Salih S, Bessoni J, Bale AE. Clinical testing for multiple endocrine neoplasia type 1 in a DNA diagnostic laboratory. Genetics In Medicine 2005, 7: 131-138. PMID: 15714081, DOI: 10.1097/01.gim.0000153663.62300.f8.Peer-Reviewed Original ResearchConceptsPituitary tumorsSporadic patientsIslet neoplasiaMEN1 mutationsMultiple endocrine neoplasia type 1Islet cell neoplasiaMEN1 genePancreatic islet tumorsFrameshift deletion mutationClinical featuresSomatic mosaicismPancreatic neoplasmsCell neoplasiaHyperparathyroidismBlood samplesPatientsClinical testingIslet tumorsSporadic casesType 1TumorsFamilial casesNeoplasiaSplice site mutationDNA diagnostic laboratories
1999
Familial medullary thyroid carcinoma: Presymptomatic diagnosis and management in children
Heptulla R, Schwartz R, Bale A, Flynn S, Genel M. Familial medullary thyroid carcinoma: Presymptomatic diagnosis and management in children. The Journal Of Pediatrics 1999, 135: 327-331. PMID: 10484798, DOI: 10.1016/s0022-3476(99)70129-0.Peer-Reviewed Original ResearchConceptsMedullary thyroid carcinomaFamilial medullary thyroid carcinomaRET geneLymph node metastasisMutation-positive family membersC-cell hyperplasiaEvidence of pathologyDecades of lifeFamily membersGenotype-phenotype correlationCodon 618Node metastasisProvocative testingClinical spectrumCodon 804Extracellular cysteine-rich regionPathologic manifestationsThyroid carcinomaNormal responseGenetic testingCarcinomaChildrenPresymptomatic diagnosisExon 14Microscopic evidence
1997
Developmental Genes and Cancer: Role of Patched in Basal Cell Carcinoma of the Skin
Gailani M, Bale A. Developmental Genes and Cancer: Role of Patched in Basal Cell Carcinoma of the Skin. Journal Of The National Cancer Institute 1997, 89: 1103-1109. PMID: 9262247, DOI: 10.1093/jnci/89.15.1103.Peer-Reviewed Original ResearchConceptsHereditary basal cell carcinomasDrosophila genesEmbryonic patterningDevelopmental genesCell fateEmbryonic developmentHuman homologueSporadic basal cell carcinomasBiochemical pathwaysDevelopmental defectsRational medical therapyTumor suppressorGenetic studiesGenesLoss of heterozygosityCell growthChromosome 9q22.3Rare genetic disorderNevoid basal cell carcinoma syndromeBCC formationGenetic disordersBasal cell carcinomaPathwayDrosophilaPatched
1996
Mutations in the human homologue of the Drosophila patched gene in Caucasian and African-American nevoid basal cell carcinoma syndrome patients.
Chidambaram A, Goldstein AM, Gailani MR, Gerrard B, Bale SJ, DiGiovanna JJ, Bale AE, Dean M. Mutations in the human homologue of the Drosophila patched gene in Caucasian and African-American nevoid basal cell carcinoma syndrome patients. Cancer Research 1996, 56: 4599-601. PMID: 8840969.Peer-Reviewed Original ResearchConceptsNevoid basal cell carcinoma syndromeNBCCS patientsMultiple basal cell carcinomasNevoid basal cell carcinoma syndrome patientsBasal cell carcinoma syndromeMultisystem autosomal dominant disorderBasal cell carcinomaAutosomal dominant disorderOvarian fibromaCell carcinomaSuch tumorsSyndrome patientsCarcinoma syndromePlantar pitsOdontogenic keratocystsEctopic calcificationGorlin syndromeClinical phenotypeDevelopmental anomaliesSyndromePatientsDominant disorderIntrafamilial variabilityTumorsHuman homologue
1994
Clinical findings in two African‐American families with the nevoid basal cell carcinoma syndrome (NBCC)
Goldstein A, Pastakia B, Digiovanna J, Poliak S, Santucci S, Kase R, Bale A, Bale S. Clinical findings in two African‐American families with the nevoid basal cell carcinoma syndrome (NBCC). American Journal Of Medical Genetics 1994, 50: 272-281. PMID: 8042672, DOI: 10.1002/ajmg.1320500311.Peer-Reviewed Original Research
1991
Human CYP1A1 gene: cosegregation of the enzyme inducibility phenotype and an RFLP.
Petersen D, McKinney C, Ikeya K, Smith H, Bale A, McBride O, Nebert D. Human CYP1A1 gene: cosegregation of the enzyme inducibility phenotype and an RFLP. American Journal Of Human Genetics 1991, 48: 720-5. PMID: 1707592, PMCID: PMC1682951.Peer-Reviewed Original Research
1990
A base mutation of the C-erbA beta thyroid hormone receptor in a kindred with generalized thyroid hormone resistance. Molecular heterogeneity in two other kindreds.
Usala S, Tennyson G, Bale A, Lash R, Gesundheit N, Wondisford F, Accili D, Hauser P, Weintraub B. A base mutation of the C-erbA beta thyroid hormone receptor in a kindred with generalized thyroid hormone resistance. Molecular heterogeneity in two other kindreds. Journal Of Clinical Investigation 1990, 85: 93-100. PMID: 2153155, PMCID: PMC296391, DOI: 10.1172/jci114438.Peer-Reviewed Original ResearchConceptsGeneralized thyroid hormone resistanceC-erbA betaThyroid hormone resistanceHormone resistanceBase substitutionsT3-binding domainC-erbA beta geneThyroid hormone receptor genesBeta thyroid hormone receptorThyroid hormone receptorC-erbA beta thyroid hormone receptorHormone receptor geneProline codonsGenomic DNAThyroid hormone actionAltered baseBeta cDNASecondary structureBeta geneNuclear receptorsBase mutationMaximum logarithmPosition 448Receptor geneBeta receptors
1987
Linkage analysis in spinopontine atrophy: Correlation or HLA linkage with phenotypic findings in hereditary ataxia
Bale A, Bale S, Schlesinger S, McFarland H, Opitz J, Reynolds J. Linkage analysis in spinopontine atrophy: Correlation or HLA linkage with phenotypic findings in hereditary ataxia. American Journal Of Medical Genetics 1987, 27: 595-602. PMID: 3477098, DOI: 10.1002/ajmg.1320270312.Peer-Reviewed Original ResearchConceptsHLA linkageHereditary ataxiasLoss of proprioceptionNervous system signsExtraocular movement abnormalitiesNeuropathologic changesNeuropathological descriptionOlivopontocerebellar atrophyMovement abnormalitiesAffected family membersPathologic changesSystem signsLower limbsType 1AtrophyHLAPhenotypic findingsNegative resultsAtaxiaFamily membersPresent familyDysphagiaDysarthriaReflexAbnormalities
1985
Familial Sotos syndrome (cerebral gigantism): Craniofacial and psychological characteristics
Bale A, Drum M, Parry D, Mulvihill J, Opitz J, Reynolds J. Familial Sotos syndrome (cerebral gigantism): Craniofacial and psychological characteristics. American Journal Of Medical Genetics 1985, 20: 613-624. PMID: 2581446, DOI: 10.1002/ajmg.1320200407.Peer-Reviewed Original ResearchConceptsSotos syndromeAnterior cranial base angleRecessive inheritance patternDiagnostic criteriaPatient's motherCranial base angleFurther evaluationDevelopmental delayCephalometric radiographsCraniofacial characteristicsSyndromeTwo-generation familyInheritance patternMothersLower facePatientsMaxillary prominenceRadiographs