Odelya Hartung Kaufman, MD/PhD
Associate Research Scientist in GeneticsDownloadHi-Res Photo
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Associate Research Scientist in Genetics
Biography
Odelya Kaufman, MD, PhD, is a Clinical Geneticist and Associate Research Scientist in the Department of Genetics at Yale School of Medicine.
Odelya attended a combined medical school and graduate program at the Albert Einstein College of Medicine (Bronx, NY) where her PhD studies focused on the functions of RNA binding proteins in ovary development. She subsequently completed her medical residency in Pediatrics and Medical Genetics at Mount Sinai Hospital (New York, NY) where she also participated in research to uncover genetic causes for critically ill infants in the NICU.
Odelya’s clinical expertise is in the diagnosis and management of children and adults with genetic conditions, including various birth defects, developmental disabilities, and pediatric hearing loss or blindness.
Odelya’s research efforts are focused on expanding our understanding of the genetic mechanisms leading to early embryonic defects and their relationship to human infertility (such as unexplained female infertility and recurrent pregnancy loss). Odelya is also actively involved in national research efforts to better understand the genetic causes of patients with rare undiagnosed diseases through the Undiagnosed Disease Network.
Appointments
Genetics
Associate Research ScientistPrimary
Other Departments & Organizations
- Genetics
- Jiang Lab
- Yale Medicine
Education & Training
- Pediatrics and Medical Genetics Resident
- Mount Sinai Hospital
- MD/PhD
- Einstein College of Medicine, Biomedical Sciences
Research
Research at a Glance
Publications Timeline
A big-picture view of Odelya Hartung Kaufman's research output by year.
8Publications
81Citations
Publications
2024
Rbpms2 promotes female fate upstream of the nutrient sensing Gator2 complex component Mios
Wilson M, Romano S, Khatri N, Aharon D, Liu Y, Kaufman O, Draper B, Marlow F. Rbpms2 promotes female fate upstream of the nutrient sensing Gator2 complex component Mios. Nature Communications 2024, 15: 5248. PMID: 38898112, PMCID: PMC11187175, DOI: 10.1038/s41467-024-49613-2.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsRibosome biogenesis factorsRNA-binding proteinsMTORC1 signaling pathwayBipotential stateBiogenesis factorsGAP activityFemale fateTranslational regulationReproductive successGenetic analysisFate switchZebrafish oogenesisBinding proteinSignaling pathwayRBPMS2Oocyte progressionRAG-2Oocyte factorsZebrafishPrimary gonadsDifferentiation factorPathwayFateRNAbpsRibosomeShwachman–Diamond syndrome mimicking mitochondrial hepatopathy
Kaufman O, Donnelly C, Cork E, Fiel M, Chu J, Ganesh J. Shwachman–Diamond syndrome mimicking mitochondrial hepatopathy. JPGN Reports 2024, 5: 213-217. PMID: 38756125, PMCID: PMC11093899, DOI: 10.1002/jpr3.12064.Peer-Reviewed Original ResearchAltmetricConceptsShwachman-Bodian-Diamond syndromeMaintenance of mitochondrial DNARegulation of mitochondrial functionShwachman-Diamond syndromeMitochondrial DNAMitochondrial phenotypeMitochondrial diseaseMitochondrial hepatopathySmall mitochondriaMitochondrial functionShwachman-Diamond syndrome patientsGenetic disordersInborn errors of metabolismErrors of metabolismMolecular research studiesInborn errorsMitochondriaDNAMutationsElectron micrographsPhenotype
2023
P207: A novel case of a female carrier of a fragile X full expansion with methylation on the normal allele
Kaufman O, Woroch A, Dincer A, Schadt E, Lozano R. P207: A novel case of a female carrier of a fragile X full expansion with methylation on the normal allele. Genetics In Medicine Open 2023, 1: 100235. DOI: 10.1016/j.gimo.2023.100235.Peer-Reviewed Original Research
2021
A transgenic system for targeted ablation of reproductive and maternal-effect genes
Bertho S, Kaufman O, Lee K, Santos-Ledo A, Dellal D, Marlow F. A transgenic system for targeted ablation of reproductive and maternal-effect genes. Development 2021, 148 PMID: 34143203, PMCID: PMC8254866, DOI: 10.1242/dev.198010.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsMaternal-effect genesForward genetic screensReverse genetics systemEmbryonic developmentRegulation of embryonic developmentTransgenic systemZygotic functionGenetic systemGenetic screeningGene productsMolecular regulationGenesEarly embryosDevelopmental processesNormal embryogenesisLate functionMolecular pathwaysBucky ballEmbryosMutagenesis
2020
Loss of dmrt1 restores zebrafish female fates in the absence of cyp19a1a but not rbpms2a/b
Romano S, Kaufman O, Marlow F. Loss of dmrt1 restores zebrafish female fates in the absence of cyp19a1a but not rbpms2a/b. Development 2020, 147: dev190942. PMID: 32895289, PMCID: PMC7541348, DOI: 10.1242/dev.190942.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsSex-specific differentiationFemale fateSex determinationLoss of DMRT1Genetic epistasis experimentsEpistasis experimentsAdult gonadsGenetic hierarchyFate specificationFemale differentiationGenetic evidenceDMRT1Fate acquisitionSomatic tissuesAdult sexMutantsCyp19a1aRepressionRBPMS2DifferentiationFateOocyte maturationGermlineOvaryZebrafish
2018
Correction: rbpms2 functions in Balbiani body architecture and ovary fate
Kaufman O, Lee K, Martin M, Rothhämel S, Marlow F. Correction: rbpms2 functions in Balbiani body architecture and ovary fate. PLOS Genetics 2018, 14: e1007768. PMID: 30376569, PMCID: PMC6207295, DOI: 10.1371/journal.pgen.1007768.Peer-Reviewed Original ResearchCitationsrbpms2 functions in Balbiani body architecture and ovary fate
Kaufman O, Lee K, Martin M, Rothhämel S, Marlow F. rbpms2 functions in Balbiani body architecture and ovary fate. PLOS Genetics 2018, 14: e1007489. PMID: 29975683, PMCID: PMC6049948, DOI: 10.1371/journal.pgen.1007489.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsMeSH KeywordsAnimalsAnimals, Genetically ModifiedCell PolarityCytoplasmEmbryo, NonmammalianFemaleGene Expression Regulation, DevelopmentalGerm CellsMaleMitochondriaMutagenesis, Site-DirectedOocytesOogenesisOvaryRNA-Binding ProteinsSex DifferentiationTumor Suppressor Protein p53ZebrafishZebrafish ProteinsConceptsRNA-binding proteinsPrimordial germ cellsGerm cellsIntact RNA binding domainLocalized to subcellular compartmentsRNA-binding domainGerm granulesProtein domainsElectron-dense cytoplasmic inclusionsMutations of TP53Accumulation of mitochondriaPromote oogenesisRibonucleoprotein granulesSubcellular compartmentsBinding domainAsymmetric accumulationDevelopmental regulationFertile malesBalbiani bodyOocyte differentiationMutantsBlastula cellsSexual differentiationSomatic cellsBody architecture
2016
Chapter 1 Methods to study maternal regulation of germ cell specification in zebrafish
Kaufman O, Marlow F. Chapter 1 Methods to study maternal regulation of germ cell specification in zebrafish. Methods In Cell Biology 2016, 134: 1-32. PMID: 27312489, PMCID: PMC5039941, DOI: 10.1016/bs.mcb.2016.02.001.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsGerm cell specificationGerm cell formationCell-specificGerm lineControl of maternal gene productsProcess of germ cell specificationMaternal gene productsGerm cell regulationGerm cell developmentLoss-of-function studiesZebrafish genomeManipulating genomesGenetic tractabilityGenetic regulationGenetic screeningGene productsCell formationMolecular biology techniquesExpression analysisCell developmentMolecular regulationCell regulationEarly embryosIn situ hybridizationGenetic models
Clinical Care
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Clinical Specialties
Genetics; Pediatrics; Clinical Genetics
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Winchester Building
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25 York Street
New Haven, CT 06511
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