Search results for "Mitotic crossover"

showing 3 items of 3 documents

Loss of heterozygosity at the short arm of chromosome 3 in renal‐cell cancer correlates with the cytological tumour type

1993

A majority of renal-cell tumours retain heterozygosity at the short arm of chromosome 3. To investigate possible histopathological differences between tumours with and without such losses, we compared loss of heterozygosity data from 51 tumours with 1 histological and 2 different cytological classifications of renal-cell tumour. Using the cytological classification of Thoenes et al., we only found tumours with loss of heterozygosity in these authors' clear-cell category. Possibly, only these tumours arise by a mechanism of double loss of a tumour-suppressor gene on 3p, non-clear-cell renal tumours having a different genetic background. Alternatively, deletions may occur in all subtypes, in …

HeterozygoteCancer Researchmedicine.medical_specialtyPathologyMitotic crossoverCARCINOMAChromosome DisordersBiologyMOLECULAR ANALYSISLoss of heterozygosityGene duplicationmedicineHumansCarcinoma Renal CellSequence DeletionChromosome AberrationsDELETIONBreakpointCytogeneticsChromosomeCYTOGENETICSKidney NeoplasmsOncologyChromosome 3Clear cell carcinomaChromosomes Human Pair 3Polymorphism Restriction Fragment LengthInternational Journal of Cancer
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Mitotic Recombination and Genetic Changes in Saccharomyces cerevisiae during Wine Fermentation

2000

Natural strains of Saccharomyces cerevisiae are prototrophic homothallic yeasts that sporulate poorly, are often heterozygous, and may be aneuploid. This genomic constitution may confer selective advantages in some environments. Different mechanisms of recombination, such as meiosis or mitotic rearrangement of chromosomes, have been proposed for wine strains. We studied the stability of the URA3 locus of a URA3/ura3 wine yeast in consecutive grape must fermentations. ura3/ura3 homozygotes were detected at a rate of 1 x 10(-5) to 3 x 10(-5) per generation, and mitotic rearrangements for chromosomes VIII and XII appeared after 30 mitotic divisions. We used the karyotype as a meiotic marker an…

Mitotic crossoverSaccharomyces cerevisiaeMitosisGenetics and Molecular BiologyWineSaccharomyces cerevisiaeApplied Microbiology and BiotechnologyGenetic recombinationFungal ProteinsMeiosisFermentacióDNA FungalMitosisGeneticsFermentation in winemakingRecombination GeneticEcologybiologyHomozygotefood and beveragesvinificationSpores Fungalbiology.organism_classificationElectrophoresis Gel Pulsed-FieldYeast in winemakingMeiosiswine fermentationKaryotypingFermentationMitotic recombinationChromosomes FungalHomologous recombinationFood ScienceBiotechnology
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Functional Connection Between the Clb5 Cyclin, the Protein Kinase C Pathway and the Swi4 Transcription Factor in Saccharomyces cerevisiae

2005

Abstract The rsf12 mutation was isolated in a synthetic lethal screen for genes functionally interacting with Swi4. RSF12 is CLB5. The clb5 swi4 mutant cells arrest at G2/M due to the activation of the DNA-damage checkpoint. Defects in DNA integrity was confirmed by the increased rates of chromosome loss and mitotic recombination. Other results suggest the presence of additional defects related to morphogenesis. Interestingly, genes of the PKC pathway rescue the growth defect of clb5 swi4, and pkc1 and slt2 mutations are synthetic lethal with clb5, pointing to a connection between Clb5, the PKC pathway, and Swi4. Different observations suggest that like Clb5, the PKC pathway and Swi4 are in…

Saccharomyces cerevisiae ProteinsMitotic crossoverBlotting WesternMutantSaccharomyces cerevisiaeSaccharomyces cerevisiaeInvestigationsCyclin BBiologymedicine.disease_causeGeneticsmedicineHydroxyureaImmunoprecipitationDNA FungalFluorescent Antibody Technique IndirectTranscription factorProtein Kinase CProtein kinase CCyclinRecombination GeneticGeneticsMutationKinaseCell CyclefungiFlow Cytometrybiology.organism_classificationMolecular biologyCell biologyDNA-Binding ProteinsMutationChromosomes FungalTranscription FactorsGenetics
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