2004
Indications of Linkage and Association of Gilles de la Tourette Syndrome in Two Independent Family Samples: 17q25 Is a Putative Susceptibility Region
Paschou P, Feng Y, Pakstis A, Speed W, DeMille M, Kidd J, Jaghori B, Kurlan R, Pauls D, Sandor P, Barr C, Kidd K. Indications of Linkage and Association of Gilles de la Tourette Syndrome in Two Independent Family Samples: 17q25 Is a Putative Susceptibility Region. American Journal Of Human Genetics 2004, 75: 545-560. PMID: 15303240, PMCID: PMC1182043, DOI: 10.1086/424389.Peer-Reviewed Original ResearchMeSH KeywordsChromosome MappingChromosomes, Human, Pair 17C-Reactive ProteinGene FrequencyGenetic LinkageGenetic Predisposition to DiseaseGenotypeHaplotypesHumansLinkage DisequilibriumLod ScoreMicrosatellite RepeatsMicrotubule-Associated ProteinsNerve Tissue ProteinsPedigreePolymorphism, Single NucleotideTourette SyndromeWhite PeopleConceptsSingle nucleotide polymorphismsLinkage disequilibriumSusceptibility regionsThree-site haplotypesPutative susceptibility regionsBackground linkage disequilibriumSignificant association resultsIndication of linkageNonparametric LOD scoreGenomic regionsThree-marker haplotypeComplex genetic backgroundAdditional microsatellite markersFine mappingGenetic basisHigher LD valuesMicrosatellite markersExpression profilesAssociation resultsTransmission/disequilibrium testChromosome 17Genetic componentGenetic backgroundGenesLOD score
1999
Genome scan for linkage to Gilles de la Tourette syndrome
Barr C, Wigg K, Pakstis A, Kurlan R, Pauls D, Kidd K, Tsui L, Sandor P. Genome scan for linkage to Gilles de la Tourette syndrome. American Journal Of Medical Genetics 1999, 88: 437-445. PMID: 10402514, DOI: 10.1002/(sici)1096-8628(19990820)88:4<437::aid-ajmg24>3.0.co;2-e.Peer-Reviewed Original Research
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
Progress in a genome scan for linkage in schizophrenia in a large Swedish kindred
Barr C, Kennedy J, Pakstis A, Wetterberg L, Sjögren B, Bierut L, Wadelius C, Wahlström J, Martinsson T, Giuffra L, Gelernter J, Hallmayer J, Moises H, Kurth J, Cavalli‐Sforza L, Kidd K. Progress in a genome scan for linkage in schizophrenia in a large Swedish kindred. American Journal Of Medical Genetics 1994, 54: 51-58. PMID: 7909991, DOI: 10.1002/ajmg.1320540110.Peer-Reviewed Original Research
1993
A new polymorphic marker (D10S97) tightly linked to the multiple endocrine neoplasia type 2A (MEN2A) locus
Lichter J, Wu J, Brooks-Wilson A, Difillipantonio M, Brewster S, Ward D, Goodfellow P, Kidd K. A new polymorphic marker (D10S97) tightly linked to the multiple endocrine neoplasia type 2A (MEN2A) locus. Human Genetics 1993, 90: 516-520. PMID: 8094065, DOI: 10.1007/bf00217451.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBase SequenceChromosome MappingChromosomes, FungalChromosomes, Human, Pair 10Cloning, MolecularCricetinaeDeoxyribonuclease EcoRIDNADNA ProbesFemaleGene FrequencyGene LibraryGenetic LinkageGenetic MarkersGenome, HumanHumansHybrid CellsIn Situ Hybridization, FluorescenceLod ScoreMaleMolecular Sequence DataMultiple Endocrine NeoplasiaPedigreePolymorphism, GeneticPolymorphism, Restriction Fragment LengthSequence Analysis, DNA
1992
Two RFLPs near HOX2@INGFR at locus D17S444E
Kennedy J, Honer W, Kaufmann C, Martignetti J, Brosius J, Kidd K. Two RFLPs near HOX2@INGFR at locus D17S444E. Nucleic Acids Research 1992, 20: 1171-1171. PMID: 1372406, PMCID: PMC312148, DOI: 10.1093/nar/20.5.1171.Peer-Reviewed Original ResearchExclusion of Linkage Between the Serotonin2 Receptor and Schizophrenia in a Large Swedish Kindred
Hallmayer J, Kennedy J, Wetterberg L, Sjögren B, Kidd K, Cavalli-Sforza L. Exclusion of Linkage Between the Serotonin2 Receptor and Schizophrenia in a Large Swedish Kindred. JAMA Psychiatry 1992, 49: 216-219. PMID: 1348924, DOI: 10.1001/archpsyc.1992.01820030048006.Peer-Reviewed Original Research
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 ResearchStatus of the search for a major genetic locus for affective disorder in the Old Order Amish
Pakstis A, Kidd J, Castiglione C, Kidd K. Status of the search for a major genetic locus for affective disorder in the Old Order Amish. Human Genetics 1991, 87: 475-483. PMID: 1879834, DOI: 10.1007/bf00197172.Peer-Reviewed Original ResearchNo Linkage Between D2 Dopamine Receptor Gene Region and Schizophrenia
Moises H, Gelernter J, Giuffra L, Zarcone V, Wetterberg L, Civelli O, Kidd K, Cavalli-Sforza L, Grandy D, Kennedy J, Vinogradov S, Mauer J, Litt M, Sjögren B. No Linkage Between D2 Dopamine Receptor Gene Region and Schizophrenia. JAMA Psychiatry 1991, 48: 643-647. PMID: 2069495, DOI: 10.1001/archpsyc.1991.01810310061011.Peer-Reviewed Original ResearchParallelizing genetic linkage analysis: A case study for applying parallel computation in molecular biology
Miller P, Nadkarni P, Gelernter J, Carriero N, Pakstis A, Kidd K. Parallelizing genetic linkage analysis: A case study for applying parallel computation in molecular biology. Journal Of Biomedical Informatics 1991, 24: 234-248. PMID: 1868693, DOI: 10.1016/0010-4809(91)90046-y.Peer-Reviewed Original ResearchConceptsParallel computersSequential programsMachine-independent parallel programming languageParallel programming languageDifferent parallel machinesLengthy computation timeParallel programsProgramming languageAvailable processorsDifferent processorsParallel computationParallel machinesSequential versionParallel versionComputational loadComputation timePerformance benchmarksComputerProcessorsCase studyDifferent piecesIterative programsLINKMAPComputationParallel formsLinkage and Tourette syndrome
Heutink P, Sandkuyl L, Van De Wetering B, Oostra B, Weber J, Wilkie P, Devor E, Pakstis A, Pauls D, Kidd K. Linkage and Tourette syndrome. The Lancet 1991, 337: 122-123. PMID: 1670715, DOI: 10.1016/0140-6736(91)90788-q.Peer-Reviewed Original Research
1990
A refined linkage map for DNA markers around the pericentromeric region of chromosome 10
Wu J, Myers S, Carson N, Kidd J, Anderson L, Castiglione C, Hoyle L, Lichter J, Sukhatme V, Simpson N, Kidd K. A refined linkage map for DNA markers around the pericentromeric region of chromosome 10. Genomics 1990, 8: 461-468. PMID: 1981049, DOI: 10.1016/0888-7543(90)90032-p.Peer-Reviewed Original ResearchGenetic and physical mapping and population studies of a fibronectin receptor β-subunit-like sequence on human chromosome 19
Giuffra L, Lichter P, Wu J, Kennedy J, Pakstis A, Rogers J, Kidd J, Harley H, Jenkins T, Ward D, Kidd K. Genetic and physical mapping and population studies of a fibronectin receptor β-subunit-like sequence on human chromosome 19. Genomics 1990, 8: 340-346. PMID: 1979054, DOI: 10.1016/0888-7543(90)90291-2.Peer-Reviewed Original ResearchConceptsChromosome 19Human chromosome 19Chromosome 10 (PTEN) geneHuman fibronectin receptorChromosome 10 markersInsertion of partDifferent polymorphic lociPericentromeric regionCDNA clonesPhysical mappingPolymorphic lociChromosome 10Dominant polymorphismBeta subunitLinkage analysisShort armFibronectin receptorSitu hybridizationCodominant systemsGenesSecond polymorphismReceptor βPolymorphismCDNALociThe locus for the medium-chain acyl-CoA dehydrogenase gene on chromosome 1 is highly polymorphic
Kidd J, Matsubara Y, Castiglione C, Tanaka K, Kidd K. The locus for the medium-chain acyl-CoA dehydrogenase gene on chromosome 1 is highly polymorphic. Genomics 1990, 6: 89-93. PMID: 1968047, DOI: 10.1016/0888-7543(90)90451-y.Peer-Reviewed Original ResearchConceptsRestriction fragment length polymorphismMedium-chain acyl-CoA dehydrogenase (MCAD) geneAcyl-CoA dehydrogenase geneSomatic cell studiesMedium-chain acyl-CoA dehydrogenaseSignificant linkage disequilibriumAcyl-CoA dehydrogenaseLinkage mappingDehydrogenase geneRegional assignmentChromosome 1Fragment length polymorphismGenetic studiesLinkage analysisLinkage disequilibriumSitu hybridizationLength polymorphismLinkage studiesPGM1Clinical genetic studiesACADMGenesLociCell localizationRFLP systems
1989
Molecular Genetic Studies in Schizophrenia
Kennedy J, Giuffra L, Moises H, Wetterberg L, Sjögren B, Cavalli-Sforza L, Pakstis A, Kidd J, Kidd K. Molecular Genetic Studies in Schizophrenia. Schizophrenia Bulletin 1989, 15: 383-391. PMID: 2573149, DOI: 10.1093/schbul/15.3.383.Peer-Reviewed Original Research
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 studiesLociDNAClonesBanIIDisequilibriumProbeTyrosine hydroxylase maps to the short arm of chromosome 11 proximal to the insulin and HRAS1 loci
Xue F, Kidd J, Pakstis A, Castiglione C, Mallet J, Kidd K. Tyrosine hydroxylase maps to the short arm of chromosome 11 proximal to the insulin and HRAS1 loci. Genomics 1988, 2: 288-293. PMID: 2906039, DOI: 10.1016/0888-7543(88)90016-x.Peer-Reviewed Original ResearchGlucocorticoid receptor maps to the distal long arm of chromosome 5
Giuffra L, Kennedy J, Castiglione C, Evans R, Wasmuth J, Kidd K. Glucocorticoid receptor maps to the distal long arm of chromosome 5. Cytogenetic And Genome Research 1988, 49: 313-314. PMID: 2907873, DOI: 10.1159/000132686.Peer-Reviewed Original Research
1987
An 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