2021
Forensic Ancestry Inference: Data Requirements, Analysis Methods, and Interpretation of Results
Bulbul O, Kidd K. Forensic Ancestry Inference: Data Requirements, Analysis Methods, and Interpretation of Results. 2021, 225-240. DOI: 10.1201/9781003043027-12.Peer-Reviewed Original ResearchStandard DNA markersSingle nucleotide polymorphismsInformative single nucleotide polymorphismsAncestry informative single nucleotide polymorphismsDNA markersShort tandem repeatsTandem repeatsBiogeographic ancestryDNA profilesCrime scene DNANucleotide polymorphismsParallel sequencing technologiesAncestry informative SNPsShort tandem repeat polymorphismsDifferent populationsSequencing technologiesFuture forensic studiesMost populationsForensic geneticsAncestry assignmentTandem repeat polymorphismDNA samplesRepeatsAncestryDNA
2015
Genetic markers for massively parallel sequencing in forensics
Kidd K, Speed W, Wootton S, Lagace R, Langit R, Haigh E, Chang J, Pakstis A. Genetic markers for massively parallel sequencing in forensics. Forensic Science International Genetics Supplement Series 2015, 5: e677-e679. DOI: 10.1016/j.fsigss.2015.12.004.Peer-Reviewed Original ResearchShort tandem repeat polymorphismsSingle nucleotide polymorphismsParallel sequencingSingle single-nucleotide polymorphismSequence readsMore haplotypesSNP panelGenetic markersMultiple allelesAncestry inferenceNucleotide polymorphismsCodominant systemsTandem repeat polymorphismMicrohaplotypesLociSequencingIndividual identificationRepeat polymorphismPolymorphismField of forensicsDNAHaplotypesReadsPhenotypeAlleles
2008
The complex global pattern of genetic variation and linkage disequilibrium at catechol-O-methyltransferase
Mukherjee N, Kidd K, Pakstis A, Speed W, Li H, Tarnok Z, Barta C, Kajuna S, Kidd J. The complex global pattern of genetic variation and linkage disequilibrium at catechol-O-methyltransferase. Molecular Psychiatry 2008, 15: 216-225. PMID: 18574484, PMCID: PMC2811226, DOI: 10.1038/mp.2008.64.Peer-Reviewed Original ResearchConceptsNon-synonymous single nucleotide polymorphismsSingle nucleotide polymorphismsGenetic variationDiverse evolutionary lineagesFuture association studiesEvolutionary lineagesPromoter regionAssociation studiesGenesLinkage disequilibriumFunctional consequencesUndetected variantsNucleotide polymorphismsCommon haplotypeComplex global patternsGlobal patternsDNA samplesHaplotypesLineagesExonsHaplotypic combinationsKbDNACOMT geneOnly variation
1995
Assignment of the 5HT7 receptor gene (HTR7) to chromosome 10q and exclusion of genetic linkage with tourette syndrome
Gelernter J, Rao P, Pauls D, Hamblin M, Sibley D, Kidd K. Assignment of the 5HT7 receptor gene (HTR7) to chromosome 10q and exclusion of genetic linkage with tourette syndrome. Genomics 1995, 26: 207-209. PMID: 7601444, DOI: 10.1016/0888-7543(95)80202-w.Peer-Reviewed Original ResearchConceptsGenetic linkageSomatic cell hybridsInteresting candidate genesPairwise linkage analysisCell hybridsNovel serotonin receptorCandidate genesChromosome 10Linkage analysisSouthern blotGenesExtended pedigreesLOD scoreReceptor geneLociGenetic polymorphismsHTR7PolymorphismReceptorsLIPED computer programDNALinkageHybridizationNeuropsychiatric disordersPedigree
1994
Detection of DNA sequence variation via deliberate heteroduplex formation from genomic DNAs amplified en masse in "population tubes".
Ruano G, Deinard A, Tishkoff S, Kidd K. Detection of DNA sequence variation via deliberate heteroduplex formation from genomic DNAs amplified en masse in "population tubes". Genome Research 1994, 3: 225-231. PMID: 8173512, DOI: 10.1101/gr.3.4.225.Peer-Reviewed Original ResearchConceptsDNA sequence variationSequence variationGenomic DNAGlucose-6-phosphate dehydrogenase geneX chromosome lociWide geographic distributionLarge-scale samplingLong intronsDehydrogenase geneAllelic variationHeteroduplex moleculesGeographic distributionAllelic variantsHeteroduplex formationChimpanzee samplesHuman populationGradient electrophoresisRare variantsDNAGradient gelsHeteroduplexesElectrophoresisIntronsGenesLoci
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
Genotyping and haplotyping of polymorphisms directly from genomic DNA via coupled amplification and sequencing(CAS)
Ruano G, Kidd K. Genotyping and haplotyping of polymorphisms directly from genomic DNA via coupled amplification and sequencing(CAS). Nucleic Acids Research 1991, 19: 6877-6882. PMID: 1684844, PMCID: PMC329323, DOI: 10.1093/nar/19.24.6877.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 step
1988
D10S20, a previously unmapped RFLP (OS-3), is located on 10q near D10S4
Miki T, Nishisho I, Tateishi H, Chen Y, Kidd J, Wu J, Pravtcheva D, Pakstis A, Takai S, Ruddle F, Kidd K. D10S20, a previously unmapped RFLP (OS-3), is located on 10q near D10S4. Genomics 1988, 3: 78-81. PMID: 2906046, DOI: 10.1016/0888-7543(88)90163-2.Peer-Reviewed Original ResearchConceptsSomatic cell hybrid DNAsCell hybrid DNAsComparative mapping studiesTaqI RFLPMouse genomic DNASouthern blot analysisCM distalHybrid DNAChromosome 10Genomic DNARsaI RFLPGenetic linkageStrong linkage disequilibriumHuman cloneLinkage disequilibriumLong armBlot analysisRFLPMapping studiesLociDNAClonesBanIIDisequilibriumProbe