Search results for "DNA synthesis"

showing 10 items of 46 documents

Centrosome amplification induced by hydroxyurea leads to aneuploidy in pRB deficient human and mouse fibroblasts.

2006

Alterations in the number and/or morphology of centrosomes are frequently observed in human tumours. However, it is still debated if a direct link between supernumerary centrosomes and tumorigenesis exists and if centrosome amplification could directly cause aneuploidy. Here, we report that hydroxyurea treatment induced centrosome amplification in both human fibroblasts expressing the HPV16 -E6-E7 oncoproteins, which act principally by targeting p53 and pRB, respectively, and in conditional pRB deficient mouse fibroblasts. Following hydroxyurea removal both normal and p53 deficient human fibroblasts arrested. On the contrary pRB deficient fibroblasts entered the cell cycle generating aneupl…

Cancer ResearchAneuploidyCentrosome amplificationBiologymedicine.disease_causeRetinoblastoma ProteinCell LineMicepRBChromosomal InstabilitymedicineDeficient mouseAnimalsHumansHydroxyureaCINCells CulturedCentrosomeDNA synthesisCell cycleFibroblastsmedicine.diseaseAneuploidyCell biologySettore BIO/18 - GeneticaOncologyCentrosomeAneuploid CellsCarcinogenesisCancer letters
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Mitogenic effects of phospholipase D and phosphatidic acid in transiently permeabilized astrocytes: effects of ethanol.

2003

Investigations of lipid-mediated signalling pathways are often limited by a lack of methods for the intracellular delivery of lipid messengers. We established a procedure for the transient permeabilization of astrocytes by an oxygen-insensitive mutant of streptolysin-O (SLO) to investigate the participation of the phospholipase D (PLD) signalling pathway in astroglial cell proliferation. Exogenous PLD, when incubated in the presence of SLO, caused an increase in DNA synthesis (measured by thymidine incorporation) which was completely suppressed by ethanol (0.3%, v/v). In parallel experiments, phosphatidic acid also induced a dose-dependent mitogenic response which, however, was not affected…

Cell Membrane PermeabilityIndolesmedicine.drug_classPhosphatidic AcidsBiologyBiochemistryDiglyceridesCellular and Molecular Neurosciencechemistry.chemical_compoundBacterial ProteinsmedicinePhospholipase DAnimalsEnzyme InhibitorsProtein kinase ACells CulturedDiacylglycerol kinaseDNA synthesisDose-Response Relationship DrugEthanolPhospholipase DPhosphatidic acidDNAProtein kinase inhibitorRatschemistryBiochemistryAstrocytesStreptolysinslipids (amino acids peptides and proteins)Signal transductionMitogensIntracellularCell DivisionSignal TransductionJournal of neurochemistry
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Purification of a fetal bovine serum factor that inhibits DNA synthesis in chick embryo retinas

1992

Chick embryo retina DNA synthesis Fetal bovine serum Growth-inhibitory factor In vitro effect Purification procedure
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Possible relationship between micronucleated and binucleated cells induced by cisplatin in cultured CHO cells

1993

Abstract Chinese hamster ovary (CHO) cells were treated with a single dose (10 μg/ml) of cis-diammino-dichloroplatinum (II) (cisplatin) for 1 h and the effect of the drug on the kinetics of proliferation of the cultures was studied. It was found that the drug produces a delay in the proliferation rates of the treated cultures. The induction of micronuclei and binucleated cells (BC) at different times after treatment have also been studied, and the ability of these cells to undergo DNA synthesis (measured as the ability to incorporate [3H]thymidine) is shown. It was found that cisplatin induced a particular type of BC that contains one or more micronuclei rather than a pure population of BC.…

Cisplatineducation.field_of_studyDNA synthesisChinese hamster ovary cellBinucleated cellsPopulationHamsterCHO CellsBiologyToxicologycomplex mixturesMolecular biologychemistry.chemical_compoundchemistryCricetinaeMicronucleus testGeneticsmedicineAnimalsCisplatineducationThymidineCell DivisionMicronuclei Chromosome-Defectivemedicine.drugMutation Research/Environmental Mutagenesis and Related Subjects
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Regulation of ribonucleotide reductase in response to iron deficiency

2011

Ribonucleotide reductase (RNR) is an essential enzyme required for DNA synthesis and repair. Although iron is necessary for class Ia RNR activity, little is known about the mechanisms that control RNR in response to iron deficiency. In this work, we demonstrate that yeast cells control RNR function during iron deficiency by redistributing the Rnr2–Rnr4 small subunit from the nucleus to the cytoplasm. Our data support a Mec1/Rad53-independent mechanism in which the iron-regulated Cth1/Cth2 mRNA-binding proteins specifically interact with the WTM1 mRNA in response to iron scarcity, and promote its degradation. The resulting decrease in the nuclear-anchoring Wtm1 protein levels leads to the re…

CytoplasmSaccharomyces cerevisiae ProteinsDeoxyribonucleoside triphosphateRibonucleoside Diphosphate ReductaseRNA StabilityProtein subunitSaccharomyces cerevisiaeCell Cycle ProteinsSaccharomyces cerevisiaeProtein Serine-Threonine KinasesBiologyResponse ElementsArticleTristetraprolinGene Expression Regulation FungalRibonucleotide ReductasesHumansRNA MessengerMolecular BiologyTranscription factorCell NucleusDNA synthesisIntracellular Signaling Peptides and ProteinsFungal geneticsRNA-Binding ProteinsRNA FungalIron DeficienciesCell Biologybiology.organism_classificationDNA-Binding ProteinsRepressor ProteinsCheckpoint Kinase 2Protein SubunitsProtein TransportRibonucleotide reductaseBiochemistryCytoplasmTranscription Factors
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EGFP Reporters for Direct and Sensitive Detection of Mutagenic Bypass of DNA Lesions

2020

The sustainment of replication and transcription of damaged DNA is essential for cell survival under genotoxic stress

DNA RepairTranscription GeneticDNA damageMutantGenetic VectorsGreen Fluorescent Proteinslcsh:QR1-502host cell reactivation (HCR)BiochemistryArticlelcsh:Microbiology03 medical and health scienceschemistry.chemical_compoundmutation assay0302 clinical medicinetranslesion synthesis (TLS)transcriptional mutagenesisTranscription (biology)Genes ReporterHumansCloning MolecularMolecular Biologyenhanced green fluorescent protein (EGFP)PolymeraseCells CulturedDNA damage tolerance030304 developmental biology0303 health sciencesbiologyDNA synthesisChemistryPoint mutationreporter assayRNACell biologyAmino Acid SubstitutionMutagenesis030220 oncology & carcinogenesisMutationbiology.proteinDNA damageDNAHeLa Cellsdamage bypassBiomolecules
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A microplate version of the DNA-synthesis inhibition test for rapid detection of DNA-alteration potentials.

1990

A microplate version of the DNA-synthesis inhibition test (DIT) for fast detection of DNA-alteration potentials has been developed. The DIT is based on the concept that DNA damage causes inhibition of DNA synthesis that becomes detectable some time after replicating cells have been in contact with genotoxic agents. In this test procedure human tissue culture cells (HeLa S3), prelabeled with [14C]thymidine, arfe exposed for 90 min to the substances in question. After the cells are rinsed, they are allowed to recover for 2 1/2 h in fresh culture medium, thereby unspecific interactions interfering with DNA replication are practically eliminated. Next, [3H]thymidine is added for 30 min, and the…

DNA ReplicationDNA damageBiophysicsBiologymedicine.disease_causeBiochemistryDNA Synthesis Inhibitionchemistry.chemical_compoundmedicineBenzo(a)pyreneHumansMolecular BiologyChromatographyAutoanalysisDNA synthesisMutagenicity TestsDNA replicationNitroquinolinesCell BiologyDNAMolecular biologychemistryCell cultureMutationThymidineDNAGenotoxicityDNA DamageHeLa CellsMutagensAnalytical biochemistry
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Inhibition of DNA synthesis in chick embryo retinas, in vitro, by a factor from fetal bovine serum

1989

Fetal bovine serum inhibited deoxyribonucleic acid (DNA) synthesis in chick embryo retina explants. The inhibitory activity was precipitated from fetal bovine serum by 45% saturated ammonium sulfate and isolated by means of Sephadex G-100 and Bio-Gel P-60 columns as a peak with an apparent molecular weight of 7000 Da. DNA-inhibiting activity was heat- and acid-stable and was destroyed by dithiothreitol and alkaline treatment. The purified factor inhibited similarly both DNA synthesis and thymidine kinase activity; 50% inhibitory effect was found with 160 ng, 17 h after the addition into the incubation medium.

DNA ReplicationThymidine kinase activityDNA synthesisEmbryoBlood ProteinsBiologyMolecular biologyGrowth InhibitorsRetinaIn vitroDithiothreitolMolecular Weightchemistry.chemical_compoundOrgan Culture TechniquesDevelopmental NeurosciencechemistryBiochemistrySephadexAnimalsCattlechick embryoFetal bovine serumDNADevelopmental BiologyDevelopmental Brain Research
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The effects of glucocorticoids on thymidine kinase and nucleoside phosphotransferase during development of chicken embryo retina.

1983

AbstractThymidine kinase in chick embryo retina reaches its highest values on the 8–10th day of development, then declines reaching the lowest value at hatching. The rate of DNA synthesis essentially follows this activity while, in contrast, nucleoside phosphotransferase increases progressively during development. Glucocorticoids at 5 × 10−6M lower the level of thymidine kinase in isolated retinas of chick embryo. The most effective steroid was hydrocortisone. The effect was observed in retinas from 8–18-day-old chick embryo and, except on the 18th day, was always of the same magnitude. We suggest that a glucocorticoid can be the natural factor responsible for the marked fall in thymidine k…

DNA Replicationmedicine.medical_specialtyanimal structuresNucleoside phosphotransferase activityHydrocortisonePrednisoloneBiophysicsChick EmbryoBiologyDevelopmentBiochemistryThymidine KinaseRetinachemistry.chemical_compoundGlucocorticoidThe effects of glucocorticoidsStructural BiologyCorticosteroneSettore BIO/10 - BiochimicaInternal medicineNucleoside phosphotransferaseGeneticsmedicineAnimalsMolecular BiologyGlucocorticoidsDNA synthesisEmbryogenesisPhosphotransferasesEmbryoCell BiologyCortisoneKineticsEndocrinologyNucleoside phosphotransferasechemistryThymidine kinaseembryonic structuresPrednisoneCorticosteroneGlucocorticoidmedicine.drugFEBS letters
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Photogenotoxicity of folic acid.

2013

Folic acid (FA), also named vitamin B9, is an essential cofactor for the synthesis of DNA bases and other biomolecules after bioactivation by dihydrofolate reductase (DHFR). FA is photoreactive and has been shown to generate DNA modifications when irradiated with UVA (360 nm) in the presence of DNA under cell-free conditions. To investigate the relevance of this reaction for cells and tissues, we irradiated three different cell lines (KB nasopharyngeal carcinoma cells, HaCaT keratinocytes, and a melanoma cell line) in the presence of FA and quantified cytotoxicity and DNA damage generation. The results indicate that FA is phototoxic and photogenotoxic by two different mechanisms. First, ext…

DNA damageCell SurvivalAntineoplastic AgentsBiochemistrychemistry.chemical_compoundFolic AcidPhysiology (medical)Cell Line TumorDihydrofolate reductaseHumansCell ProliferationbiologyDNA synthesisChemistrySuperoxide DismutaseCatalasePhotochemical ProcessesNuclear DNAHaCaTTetrahydrofolate DehydrogenaseMethotrexateBiochemistryDNA glycosylaseCell culturebiology.proteinFolic Acid AntagonistsDrug Screening Assays AntitumorDNADNA DamageFree radical biologymedicine
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