Search results for "Pair 1"

showing 10 items of 160 documents

Biological characterization of laryngeal squamous-cell carcinoma

1996

The traditional prognostic factors, including stage of disease and tumour grade, have shown a limited prognostic significance and an inability to predict clinical response to specific treatment in patients with laryngeal squamous-cell carcinoma. More recent data suggest that cell kinetics indices, DNA-ploidy, lysosomal cysteine proteinase expression and genetic changes of both tumour suppressor genes and proto-oncogenes may be considered as reliable and reproducible indicators of biological aggressiveness in these patients. Moreover, the frequency of different genetic alterations suggests that several pathways are involved in the genesis of these neoplasias and, in particular, it is very pr…

Genes rasChromosomes Human Pair 11Settore BIO/14 - FarmacologiaHumansDNA NeoplasmFlow CytometryGenes p53Laryngeal NeoplasmsLaryngeal squamous-cell carcinomaCell Division
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Human type I cytokeratin genes are a compact cluster

1997

A YAC clone (211F11) containing approximately 0.5 Mb of human DNA was isolated from a human genomic library by PCR-based screening with cytokeratin (KRT) 13-specific primers. The YAC clone was mapped by FISH to the long arm of chromosome 17 (17q12→q21), a region to which several other type I KRT genes had been mapped previously. We now show by Southern blot hybridization and PFGE analyses that KRT13, 14, 15, and 16 are all contained within YAC clone 211F11. Long-range restriction mapping analysis of clone 211F11 and of two smaller YAC clones that were also isolated with KRT13-specific primers, suggests that KRT13, 14, 15, 16 and their linked type I genes KRT17 and 19, are contained in less …

Genetic LinkageLocus (genetics)BiologyPolymerase Chain ReactionRestriction mapGene mappingGene clusterGeneticsHumansGenomic libraryCloning MolecularChromosomes Artificial YeastMolecular BiologyIn Situ Hybridization FluorescenceGenetics (clinical)Southern blotGeneticsBase SequenceChromosome MappingMolecular biologyChromosome 17 (human)genomic DNAMultigene FamilyKeratinsDNA ProbesChromosomes Human Pair 17
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Evaluation of linkage of bipolar affective disorder to chromosome 18 in a sample of 57 German families.

1999

Previously reported linkage of bipolar affective disorder to DNA markers on chromosome 18 was reexamined in a large sample of German bipolar families. Twenty-three short tandem repeat markers were investigated in 57 families containing 103 individuals with bipolar I disorder (BPI), 26 with bipolar II disorder (BPII), nine with schizoaffective disorder of the bipolar type (SA/BP), and 38 individuals with recurrent unipolar depression (UPR). Evidence for linkage was tested with parametric and non-parametric methods under two definitions of the affected phenotype. Analysis of all 57 families revealed no robust evidence for linkage. Following previous reports we performed separate analyses afte…

Genetic MarkersMaleBipolar I disorderBipolar DisorderGenetic LinkageSchizoaffective disorderGenes RecessiveGenetic determinismNuclear FamilyCellular and Molecular NeuroscienceBipolar II disorderGenomic ImprintingChromosome 18GermanymedicineHumansFamilyBipolar disorderMolecular BiologyGenes DominantLinkage (software)GeneticsRecombination GeneticSex CharacteristicsModels GeneticChromosome Mappingmedicine.diseasePsychiatry and Mental healthChromosomal regionFemaleLod ScorePsychologyChromosomes Human Pair 18Molecular psychiatry
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Pleomorphic anaplastic neuroblastoma

2000

Genetic MarkersMaleCancer ResearchPathologymedicine.medical_specialtyGenes mycDiagnostic aidNeuroblastomaFatal OutcomeNeuroblastomamedicineHumansPleomorphic anaplastic neuroblastomaAnaplasiaAnaplasiabusiness.industryPrognosismedicine.diseaseImmunohistochemistryOncologyPleomorphism (cytology)Chromosomes Human Pair 1Abdominal NeoplasmsChild PreschoolPediatrics Perinatology and Child Healthmedicine.symptombusinessAutonomic neuropathyGene DeletionMedical and Pediatric Oncology
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Linkage studies of bipolar disorder in the region of the Darier's disease gene on chromosome 12q23-24.1.

1995

We have recently described a family in which there is cosegregation of major affective disorder with Darier's disease and have mapped this autosomal dominant skin disorder to 12q23-q24.1. This has provided an interesting candidate region for genetic studies of bipolar disorder. We have studied the segregation of seven markers spanning the Darier's disease locus in 45 bipolar disorder pedigrees and found modest evidence in support of linkage under heterogeneity for 5 of these markers. Nonparametric analyses were suggestive of linkage with a marker at the gene encoding a secretory form of phospholipase A2. Our sample has relatively low power to detect linkage under heterogeneity and independe…

Genetic MarkersMaleCandidate geneBipolar DisorderCosegregationGenotypeGenetic LinkageLocus (genetics)BiologyPhospholipases AGene mappingDarier DiseaseGenetic linkageDarier's diseasemedicineHumansBipolar disorderGenetics (clinical)AllelesGenes DominantGeneticsChromosomes Human Pair 12Chromosome Mappingmedicine.diseasePedigreePhospholipases A2FemaleLod ScoreDarier DiseaseAmerican journal of medical genetics
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Linkage analysis in Usher syndrome type I (USH1) families from Spain.

1998

Usher syndrome (USH) is an autosomal recessive hereditary disorder characterised by congenital sensorineural hearing loss and gradual visual impairment secondary to retinitis pigmentosa (RP). The disorder is clinically and genetically heterogeneous. With regard to Usher type I (USH1), several subtypes have been described, the most frequent being USH1B located on chromosome 11q13.5. Of 18 USH1 families studied by linkage analysis, 12 (67%) showed significant lod score values for locus D11S527 (Zmax=14.032, theta=0.000) situated on chromosome 11q. Our findings suggest considerable genetic heterogeneity in the Spanish USH1 population. It is important to note that one of our families linked to …

Genetic MarkersMaleGenetic LinkageHearing Loss SensorineuralUsher syndromePopulationLocus (genetics)BiologyGenetic HeterogeneityGene mappingGenetic linkageRetinitis pigmentosaotorhinolaryngologic diseasesGeneticsmedicineHumanseducationGenetics (clinical)Geneticseducation.field_of_studyGenetic heterogeneityChromosomes Human Pair 11HaplotypeSyndromemedicine.diseaseeye diseasesPedigreeHaplotypesSpainFemaleRetinitis PigmentosaResearch ArticleJournal of Medical Genetics
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The copy number variant involving part of the α7 nicotinic receptor gene contains a polymorphic inversion.

2008

The alpha7 nicotinic acetylcholine receptor gene (CHRNA7) is located at 15q13-q14 in a region that is strongly linked to the P50 sensory gating deficit, an endophenotype of schizophrenia and bipolar disorder. Part of the gene is a copy number variant, due to a duplication of exons 5-10 and 3' sequence in CHRFAM7A, which is present in many but not all humans. Maps of this region show that the two genes are in opposite orientation in the individual mainly represented in the public access human DNA sequence database (Build 36), suggesting that an inversion had occurred since the duplication. We have used fluorescent in situ hybridization to investigate this putative inversion. Analysis of inte…

Genetic MarkersMaleLinkage disequilibriumBipolar DisorderPan troglodytesalpha7 Nicotinic Acetylcholine ReceptorReceptors NicotinicLinkage DisequilibriumExonGene duplicationGeneticsSettore MED/48 -Scienze Infermierist. e Tecn. Neuro-Psichiatriche e Riabilitat.AnimalsHumansCopy-number variationGeneSettore MED/25 - PsichiatriaGenetics (clinical)Sequence DeletionSegmental duplicationChromosomal inversionGeneticsChromosomes Human Pair 15Polymorphism GeneticBase SequencebiologyCHRNA7Chromosome Mappinginversion schizophrenia bipolar disorder 15q13–q14 CHRNA7 segmental duplicationChromosome InversionSchizophreniabiology.proteinFemale
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Tetrasomy 18p de novo: Identification by FISH with conventional and microdissection probes and analysis of parental origin and formation by short seq…

1996

We report a de novo supernumerary isochromosome 18p in a child with tetrasomy 18p, analyzed by a straightforward combination of cytogenetic and molecular cytogenetic methods. The diagnostic procedure consisted of standard banding techniques and fluorescence in situ hybridization (FISH) with centromere and library DNA probes for chromosome 18, and 18p-specific FISH probes prepared by chromosome microdissection and in vitro amplification. The maternal origin as well as the most probable cell stages of formation of the supernumerary isochromosome were determined by typing of short sequence repeats (SSRs). The pattern of allelic distribution suggests a nondisjunction during meiosis followed by …

Genetic MarkersMalemedicine.medical_specialtyMarker chromosomeCentromereIsochromosomeMothersBiologyFathersTetrasomy 18pChromosome 18GeneticsmedicineHumansAllelesIn Situ Hybridization FluorescenceGenetics (clinical)Repetitive Sequences Nucleic AcidGeneticsmedicine.diagnostic_testCytogeneticsChromosome MappingInfantAneuploidymedicine.diseaseChromosome microdissectionMolecular biologyChild PreschoolTetrasomyFemaleChromosomes Human Pair 18DNA ProbesFluorescence in situ hybridizationHuman Genetics
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Autosomal dominant polycystic kidney disease—in vitro culture of cyst-lining epithelial cells

1992

The major form of autosomal dominant polycystic kidney disease (ADPKD) in humans is linked to the PKD1 gene on chromosome 16p. The identity of the gene and the underlying pathogenetic mechanisms are not yet defined. Cyst-lining epithelial cells derived from a polycystic kidney were successfully grown in culture and designated MZ-PKD-1 cells. By linkage analysis, the related pedigree of the nephrectomized patient could be linked to the PKD1 gene on chromosome 16p. Thus, these cells exhibit the genotype of a mutated PKD1 gene and represent an in vitro culture model for ADPKD involving chromosome 16p. The antigenic phenotype was characterized immunohistologically by epithelial differentiation …

Genetic MarkersPathologymedicine.medical_specialtyAutosomal dominant polycystic kidney diseaseHLA-C AntigensBiologyEpitheliumGenetic linkagemedicineHumansNorthern blotGeneCells CulturedHLA-A AntigensPKD1urogenital systemAntibodies MonoclonalGeneral MedicineMiddle AgedBlotting NorthernPolycystic Kidney Autosomal Dominantmedicine.diseaseImmunohistochemistryMolecular biologyPhenotypePedigreeBlotMicroscopy ElectronPhenotypeHLA-B AntigensCell cultureFemaleChromosomes Human Pair 16Virchows Archiv B Cell Pathology Including Molecular Pathology
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Comparative architectural aspects of regions of conserved synteny on human chromosome 11p15.3 and mouse chromosome 7 (including genes WEE1 and LMO1)

2001

Human chromosome 11p15.3 is associated with chromosome aberrations in the Beckwith Wiedemann Syndrome and implicated in the pathogenesis of different tumor types including lung cancer and leukemias. To date, only single tumor-relevant genes with linkage to this region (e.g. LMO1) have been found suggesting that this region may harbor additional potential disease associated genes. Although this genomic area has been studied for years, the exact order of genes/chromosome markers between D11S572 and the WEE1 gene locus remained unclear. Using the FISH technique and PAC clones of the flanking markers we determined the order of the genomic markers. Based on these clones we established a PAC cont…

Genetic Markerscongenital hereditary and neonatal diseases and abnormalitiesBeckwith–Wiedemann syndromeCell Cycle ProteinsBiologyChromosomesEvolution MolecularContig MappingMiceChromosome regionsGene OrderMetalloproteinsGeneticsmedicineAnimalsHumansCloning MolecularMolecular BiologyGeneConserved SequenceIn Situ Hybridization FluorescenceGenetics (clinical)Repetitive Sequences Nucleic AcidSyntenyOncogene ProteinsGeneticsChromosome 7 (human)Base CompositionChromosomes Human Pair 11Nuclear ProteinsChromosomeSequence Analysis DNALIM Domain ProteinsProtein-Tyrosine Kinasesmedicine.diseaseAT Rich SequenceGC Rich SequenceDNA-Binding ProteinsChromosome 3CpG IslandsChromosome 21Transcription FactorsCytogenetic and Genome Research
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