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
2008
Global patterns of variation in allele and haplotype frequencies and linkage disequilibrium across the CYP2E1 gene
Lee M, Mukherjee N, Pakstis A, Khaliq S, Mohyuddin A, Mehdi S, Speed W, Kidd J, Kidd K. Global patterns of variation in allele and haplotype frequencies and linkage disequilibrium across the CYP2E1 gene. The Pharmacogenomics Journal 2008, 8: 349-356. PMID: 18663376, PMCID: PMC2782390, DOI: 10.1038/tpj.2008.9.Peer-Reviewed Original ResearchConceptsGenetic variationGene expressionAssociation studiesFamily of enzymesDifferent human populationsHaplotype variationHuman population samplesMajor geographical regionsTandem repeatsPolymorphism haplotypesGenesMultiple populationsHaplotypesSusceptibility mutationsGlobal patternsHuman populationAdditional polymorphismsHaplotype frequenciesCentral roleDifferent populationsDiverse patternsEndogenous compoundsDisequilibriumLD dataPolymorphism
1999
Global variation in the frequencies of functionally different catechol-O-methyltransferase alleles
Palmatier M, Kang A, Kidd K. Global variation in the frequencies of functionally different catechol-O-methyltransferase alleles. Biological Psychiatry 1999, 46: 557-567. PMID: 10459407, DOI: 10.1016/s0006-3223(99)00098-0.Peer-Reviewed Original ResearchConceptsRestriction site polymorphismsSingle nucleotide polymorphismsAllele frequenciesDifferent population frequenciesControl allele frequenciesEnzyme activity levelsAncestral alleleCandidate genesPopulation-based association studyAssociation studiesSite polymorphismFirst global surveyNucleotide polymorphismsAllelesEnzyme activityPopulation frequencyPolymorphismDifferent populationsCOMT enzyme activityActivity alleleLow-activity alleleGenesProteinGlobal variationPopulationY‐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
1996
Dynamics of the haplotype frequencies in populations: study using the Monte Carlo method.
Grigorenko E, Shikanian A, Kidd D, Dorig R, Kidd K. Dynamics of the haplotype frequencies in populations: study using the Monte Carlo method. Genetika 1996, 32: 1705-13. PMID: 9102365.Peer-Reviewed Original ResearchConceptsNatural selectionEffective population sizeRandom genetic driftMonte Carlo methodHaplotype frequenciesGenetic driftRandom matingEvolutionary dynamicsCarlo methodPopulation sizeRecurrent mutationsMutation processHarmonic meanFrequency dynamicsDifferent populationsSimulation resultsExperimental dataDynamicsMatingPopulationMutationsHaplotypesAllelesColonizationNew World colonizationMinisatellite diversity supports a recent African origin for modern humans
Armour J, Anttinen T, May C, Vega E, Sajantila A, Kidd J, Kidd K, Bertranpetit J, Pääbo S, Jeffreys A. Minisatellite diversity supports a recent African origin for modern humans. Nature Genetics 1996, 13: 154-160. PMID: 8640220, DOI: 10.1038/ng0696-154.Peer-Reviewed Original ResearchConceptsRecent African originNon-African populationsModern human diversityAllelic diversityMinisatellite diversityVariable lociAncestral relationshipsHuman chromosomesAllelic structureAfrican originGreat diversityDiversityHuman diversityAfrican chromosomesChromosomesAllele familiesLociModern humansDifferent populationsThe world-wide distribution of allele frequencies at the human dopamine D4 receptor locus
Chang F, Kidd J, Livak K, Pakstis A, Kidd K. The world-wide distribution of allele frequencies at the human dopamine D4 receptor locus. Human Genetics 1996, 98: 91-101. PMID: 8682515, DOI: 10.1007/s004390050166.Peer-Reviewed Original ResearchConceptsImperfect tandem repeatsAllele frequenciesDifferent populationsActual allele frequenciesDopamine D4 receptor locusSelective forcesEvolutionary significanceWorld-wide distributionAssociation studiesReceptor locusTandem repeatsThird exonBase pairsAmino acidsFunctional relevanceRepeatsReceptor geneAllelesLociModern humansPolymorphismD4 receptor geneDopamine D4 receptor geneRepeat polymorphismExons