2018
Microhaplotypes in forensic genetics
Oldoni F, Kidd KK, Podini D. Microhaplotypes in forensic genetics. Forensic Science International Genetics 2018, 38: 54-69. PMID: 30347322, DOI: 10.1016/j.fsigen.2018.09.009.Peer-Reviewed Original Research
2011
Single nucleotide polymorphisms and haplotypes in Native American populations
Kidd JR, Friedlaender F, Pakstis AJ, Furtado M, Fang R, Wang X, Nievergelt CM, Kidd KK. Single nucleotide polymorphisms and haplotypes in Native American populations. American Journal Of Biological Anthropology 2011, 146: 495-502. PMID: 21913176, PMCID: PMC3658315, DOI: 10.1002/ajpa.21560.Peer-Reviewed Original ResearchConceptsSingle nucleotide polymorphismsNative American populationsAutosomal markersModern Native American populationsNucleotide polymorphismsOld World populationsEvolutionary relationshipsAmerican populationDifferent small setsDNA polymorphismsEurasian originAncestry inferenceMultiple populationsPolymorphismLarge comprehensive datasetAscertainment biasesNew WorldSmall independent setsMarkersComprehensive datasetClose relationshipPopulationHaplotypesNew informationRare BRCA1 haplotypes including 3’UTR SNPs associated with breast cancer risk
Pelletier C, Speed WC, Paranjape T, Keane K, Blitzblau R, Hollestelle A, Safavi K, van den Ouweland A, Zelterman D, Slack FJ, Kidd KK, Weidhaas JB. Rare BRCA1 haplotypes including 3’UTR SNPs associated with breast cancer risk. Cell Cycle 2011, 10: 90-99. PMID: 21191178, PMCID: PMC3048078, DOI: 10.4161/cc.10.1.14359.Peer-Reviewed Original ResearchConceptsGenetic markersRare haplotypesNew genetic markersBRCA1 3'UTRSequence mutationsMicroRNA bindingFunctional variantsSuch polymorphismsHaplotypesMutationsBRCA1Haplotype analysisPolymorphismSNPsRegion polymorphismsVariantsFunctional polymorphismsBreast cancer subtypesCancer subtypesMarkersBRCA1 haplotypeMiRNALarge populationBRCA1 mutationsBinding
1999
Y‐chromosome specific YCAII, DYS19 and YAP polymorphisms in human populations: a comparative study
QUINTANA‐MURCI L, SEMINO O, POLONI E, LIU A, VAN GIJN M, PASSARINO G, BREGA A, NASIDZE I, MACCIONI L, COSSU G, AL‐ZAHERY N, KIDD J, KIDD K, SANTACHIARA‐BENERECETTI A. Y‐chromosome specific YCAII, DYS19 and YAP polymorphisms in human populations: a comparative study. Annals Of Human Genetics 1999, 63: 153-166. PMID: 10738527, DOI: 10.1046/j.1469-1809.1999.6320153.x.Peer-Reviewed Original ResearchConceptsY Alu PolymorphismGenetic structureGenetic affinityStrong genetic structurePopulation genetic structureAlu polymorphismsY markersHuman populationYCAIIDifferent populationsRelated groupsPolymorphismSpecific markersPopulationMarkersDYS19Geographic locationDifferent statistical analysesFrequency distributionSTRAffinity
1995
The Dopamine Transporter Protein Gene (SLC6A3): Primary Linkage Mapping and Linkage Studies in Tourette Syndrome
Gelernter J, Vandenbergh D, Kruger S, Pauls D, Kurlan R, Pakstis A, Kidd K, Uhl G. The Dopamine Transporter Protein Gene (SLC6A3): Primary Linkage Mapping and Linkage Studies in Tourette Syndrome. Genomics 1995, 30: 459-463. PMID: 8825631, DOI: 10.1006/geno.1995.1265.Peer-Reviewed Original ResearchConceptsTourette syndromeDopamine transporterAttention deficit disorderDopaminergic neuronsPresynaptic reuptakeSpecific localizationPsychiatric illnessPsychostimulant drugsChromosome 5pCocaine-induced paranoiaSyndromeDeficit disorderSLC6A3ScoresMajor siteLinkage studiesNegative lod scoresMarkersTransporter protein gene
1992
Localization of the gene for MEN 2A.
Lichter J, Difilippantonio M, Wu J, Miller D, Ward D, Goodfellow P, Kidd K. Localization of the gene for MEN 2A. Henry Ford Hospital Medical Journal 1992, 40: 199-204. PMID: 1362405.Peer-Reviewed Original ResearchConceptsGene mapping techniquesYeast artificial chromosomesMapping panelPericentromeric regionArtificial chromosomesGenetic linkage studiesChromosome 10GenesSitu hybridizationLinkage studiesChromosomesMBMultiple endocrine neoplasia type 2A syndromeDNAHybridizationRegionConsistent orderSmall regionLocalizationFluorescenceMarkers
1991
A linkage map spanning the locus for diastrophic dysplasia (DTD)
Hästbacka J, Sistonen P, Kaitila I, Weiffenbach B, Kidd K, de la Chapelle A. A linkage map spanning the locus for diastrophic dysplasia (DTD). Genomics 1991, 11: 968-973. PMID: 1783404, DOI: 10.1016/0888-7543(91)90021-6.Peer-Reviewed Original ResearchStudy of an additional 58 DNA markers in five human populations from four continents.
Bowcock A, Hebert J, Mountain J, Kidd J, Rogers J, Kidd K, Cavalli-Sforza L. Study of an additional 58 DNA markers in five human populations from four continents. Gene Geography 1991, 5: 151-73. PMID: 1841601.Peer-Reviewed Original Research
1990
Extensive sequence polymorphisms associated with chromosome 10 alpha satellite DNA and its close linkage to markers from the pericentromeric region
Wu J, Kidd K. Extensive sequence polymorphisms associated with chromosome 10 alpha satellite DNA and its close linkage to markers from the pericentromeric region. Human Genetics 1990, 84: 279-282. PMID: 1968036, DOI: 10.1007/bf00200575.Peer-Reviewed Original ResearchConceptsAlpha satellite DNAExtensive sequence polymorphismSatellite DNAPericentromeric regionSequence polymorphismsExcellent genetic markerCentromeric regionsDNA markersGenetic markersEnzyme PstILOD scoreClose linkagePositive lod scoresLinkage studiesDNAType 2AIndependent supportPolymorphismCentromeresMorphsMarkersRBP3LociDistance relationshipsEcoRV
1989
One Form of Bipolar Affective Disorder is Mapped to Chromosome 11
Kidd K, Egeland J, Gerhard D, Pauls D, Sussex J, Allen C, Hostetter A, Kidd J, Pakstis A, Housman D. One Form of Bipolar Affective Disorder is Mapped to Chromosome 11. 1989, 184-187. DOI: 10.1007/978-1-4612-3524-8_41.Peer-Reviewed Original ResearchComplex human disordersGenetic linkageGenetic markersHuman disordersComplex traitsRestriction fragment length polymorphismHuman genomeFragment length polymorphismMajor locusChromosome 11Length polymorphismBipolar affective disorderGenomeLociTraitsDNAMarkersLinkageGeneticistsPolymorphismLarge numberDiscoveryFirst stepThe mapping of the locus for multiple endocrine neoplasia type 2A by linkage with chromosome 10 markers.
Simpson N, Kidd K. The mapping of the locus for multiple endocrine neoplasia type 2A by linkage with chromosome 10 markers. Hormone And Metabolic Research. Supplement Series 1989, 21: 5-9. PMID: 2572529.Peer-Reviewed Original ResearchConceptsDisease locusInterstitial retinol-binding proteinChromosome 10 markersTest of linkageChromosome 10Disease genesDeletion siteChromosome 20Additional family dataBinding proteinLociGenesExclusion of linkageSitu hybridizationD10S5Ultimate identificationRetinol-binding proteinType 2AMultiple endocrine neoplasia type 2AGenomeMarkersFamily dataLinkageProteinHybridization
1988
Evidence against linkage of schizophrenia to markers on chromosome 5 in a northern Swedish pedigree
Kennedy J, Giuffra L, Moises H, Cavalli-Sforza L, Pakstis A, Kidd J, Castiglione C, Sjogren B, Wetterberg L, Kidd K. Evidence against linkage of schizophrenia to markers on chromosome 5 in a northern Swedish pedigree. Nature 1988, 336: 167-170. PMID: 2903450, DOI: 10.1038/336167a0.Peer-Reviewed Original ResearchConceptsImportant pathogenic roleGenetic factorsSevere mental illnessAetiologic factorsChronic coursePathogenic roleProximal long armGlucocorticoid receptorMental illnessSchizophreniaSchizophrenia casesLinkage of schizophreniaGenetic linkage studiesFamily studiesLong armDistal long armMarkersChromosome 5Linkage studiesSwedish pedigreeArmLinkage ProjectIllnessStrong evidenceFactorsA linkage group of five DNA markers on human chromosome 10
Farrer L, Castiglione C, Kidd J, Myers S, Carson N, Simpson N, Kidd K. A linkage group of five DNA markers on human chromosome 10. Genomics 1988, 3: 72-77. PMID: 2906045, DOI: 10.1016/0888-7543(88)90162-0.Peer-Reviewed Original ResearchConceptsLinkage groupsDNA markersChromosome 10Recombination frequencySex-specific recombination frequenciesAccurate genetic mapHuman chromosome 10Three-locus analysisLong armChromosome 10 markersGenetic mapLinkage mapPericentric regionsMarker lociMap intervalPrevious localizationLinkage analysisProximal regionLociLarge pedigreeType 2APedigreeMultiple endocrine neoplasia type 2AD10S5MarkersPredicting genotypes at loci for autosomal recessive disorders using linked genetic markers: application to Wilson's disease
Farrer L, Bonne-Tamir B, Frydman M, Magazanik A, Kidd K, Bowcock A, Cavalli-Sforza L. Predicting genotypes at loci for autosomal recessive disorders using linked genetic markers: application to Wilson's disease. Human Genetics 1988, 79: 109-117. PMID: 3164701, DOI: 10.1007/bf00280547.Peer-Reviewed Original ResearchConceptsWilson disease locusDisease locusUnaffected individualsChromosome 13 markersWND locusMultipoint linkage analysisDisease familiesWilson disease familiesGenetic markersLinkage analysisChromosome 13Long armLociSources of variationAutosomal recessive disorderMore variationGenotypesCopper concentrationRecessive disorderNormal homozygotesWilson's diseaseFamilial componentMarkersCopper levelsSubsequent analysis
1987
Mapping the Wilson disease locus to a cluster of linked polymorphic markers on chromosome 13.
Bowcock A, Farrer L, Cavalli-Sforza L, Hebert J, Kidd K, Frydman M, Bonne-Tamir B. Mapping the Wilson disease locus to a cluster of linked polymorphic markers on chromosome 13. American Journal Of Human Genetics 1987, 41: 27-35. PMID: 3474893, PMCID: PMC1684171.Peer-Reviewed Original ResearchConceptsOrder of markersChromosome 13 markersMultipoint linkage analysisDNA markersRecombination frequencyMaximum lod scoreLinkage analysisPolymorphic markersChromosome 13LOD scoreLociD13S10Esterase DAutosomal recessive disorderWNDCopper metabolismRecessive disorderWilson's diseaseCentimorgansMarkersMetabolismKindredsAn efficient strategy for gene mapping using multipoint linkage analysis: exclusion of the multiple endocrine neoplasia 2A (MEN2A) locus from chromosome 13.
Farrer L, Goodfellow P, Lamarche C, Franjkovic I, Myers S, White B, Holden J, Kidd J, Simpson N, Kidd K. An efficient strategy for gene mapping using multipoint linkage analysis: exclusion of the multiple endocrine neoplasia 2A (MEN2A) locus from chromosome 13. American Journal Of Human Genetics 1987, 40: 329-37. PMID: 2883889, PMCID: PMC1684085.Peer-Reviewed Original ResearchConceptsMarker lociGenetic mapChromosome 13Red cell enzyme markersMapping disease genesLarger genetic mapMultipoint analysisLinkage mapMultipoint linkage analysisGene mappingDNA markersDisease genesTwo-point analysisLinkage analysisLociMEN2A locusClose linkageEnzyme markersType 2AMultiple endocrine neoplasia type 2ACMorganGenesMarkersMultiple endocrine neoplasia 2AFamily
1982
GENETIC LINKAGE MARKERS IN THE STUDY OF PSYCHIATRIC DISORDERS
Kidd K. GENETIC LINKAGE MARKERS IN THE STUDY OF PSYCHIATRIC DISORDERS. 1982, 459-466. DOI: 10.1016/b978-0-08-027987-9.50049-4.Peer-Reviewed Original Research