Search results for "Replica"

showing 10 items of 576 documents

Nucleotide excision repair of abasic DNA lesions

2019

AbstractApurinic/apyrimidinic (AP) sites are a class of highly mutagenic and toxic DNA lesions arising in the genome from a number of exogenous and endogenous sources. Repair of AP lesions takes place predominantly by the base excision pathway (BER). However, among chemically heterogeneous AP lesions formed in DNA, some are resistant to the endonuclease APE1 and thus refractory to BER. Here, we employed two types of reporter constructs accommodating synthetic APE1-resistant AP lesions to investigate the auxiliary repair mechanisms in human cells. By combined analyses of recovery of the transcription rate and suppression of transcriptional mutagenesis at specifically positioned AP lesions, w…

DNA RepairTranscription GeneticDNA damageDNA repairGenome Integrity Repair and ReplicationGene Knockout Techniques03 medical and health sciencesEndonucleasechemistry.chemical_compoundTranscription (biology)CRISPR-Associated Protein 9DNA-(Apurinic or Apyrimidinic Site) LyaseGeneticsHumansAP siteCell Line TransformedSkin030304 developmental biologyGene Editing0303 health sciencesBase SequencebiologyGenome Human030302 biochemistry & molecular biologyDNABase excision repairFibroblastsMolecular biologyXeroderma Pigmentosum Group A ProteinDNA-Binding ProteinschemistryMutationbiology.proteinCRISPR-Cas SystemsDNADNA DamageProtein BindingNucleotide excision repairNucleic Acids Research
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Cell proliferation and DNA breaks are involved in ultraviolet light-induced apoptosis in nucleotide excision repair-deficient Chinese hamster cells.

2002

UV light targets both membrane receptors and nuclear DNA, thus evoking signals triggering apoptosis. Although receptor-mediated apoptosis has been extensively investigated, the role of DNA damage in apoptosis is less clear. To analyze the importance of DNA damage induced by UV-C light in apoptosis, we compared nucleotide excision repair (NER)-deficient Chinese hamster ovary cells (lines 27-1 and 43-3B mutated for the repair genes ERCC3 and ERCC1, respectively) with the corresponding DNA repair-proficient fibroblasts (CHO-9 and ERCC1 complemented 43-3B cells). NER-deficient cells were hypersensitive as to the induction of apoptosis, indicating that apoptosis induced by UV-C light is due to u…

DNA RepairTranscription GeneticDNA repairDNA damageCell SurvivalUltraviolet RaysApoptosisCHO CellsBiologyCysteine Proteinase InhibitorsRadiation ToleranceArticleMiceCricetinaeUltraviolet lightAnimalsMolecular BiologyChromosome AberrationsIntrinsic apoptosisCell CycleDNA replicationCell BiologyFibroblastsMolecular biologyCaspase InhibitorsChromatinCell biologyKineticsUVB-induced apoptosisProto-Oncogene Proteins c-bcl-2ApoptosisMutationTumor Suppressor Protein p53Cell DivisionNucleotide excision repairDNA DamageMolecular biology of the cell
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Heterochromatin Networks: Topology, Dynamics, and Function (a Working Hypothesis)

2021

Open systems can only exist by self-organization as pulsing structures exchanging matter and energy with the outer world. This review is an attempt to reveal the organizational principles of the heterochromatin supra-intra-chromosomal network in terms of nonlinear thermodynamics. The accessibility of the linear information of the genetic code is regulated by constitutive heterochromatin (CHR) creating the positional information in a system of coordinates. These features include scale-free splitting-fusing of CHR with the boundary constraints of the nucleolus and nuclear envelope. The analysis of both the literature and our own data suggests a radial-concentric network as the main structural…

DNA Replication TimingQH301-705.5HeterochromatinEmbryonic DevelopmentReviewtranscriptional pulsingTopologyModels Biologicalpositional informationphysics of lifeCell Line TumorAnimalsHumansConstitutive heterochromatinNucleosomeEpigeneticsBiology (General)PhysicsReplication timingheterochromatincytoskeletonActomyosinGeneral MedicineGenetic codenucleolar boundaryRatsChromatinGene Expression RegulationOrgan SpecificitynetworksRNA splicingscale-free oscillationsChickensCell Nucleoluschromatin organizationCells
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Thoughts on What Chemists Can Contribute to Fighting SARS-CoV-2 - A Short Note on Hand Sanitizers, Drug Candidates and Outreach.

2020

Abstract The SARS‐CoV‐2 outbreak causing the respiratory disease COVID‐19 has left many chemists in academia without an obvious option to contribute to fighting the pandemic. Some of our recent experiences indicate that there are ways to overcome this dilemma. A three‐pronged approach is proposed.

DNA Replication2019-20 coronavirus outbreakCoronavirus disease 2019 (COVID-19)Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)Hand SanitizersPneumonia Viral010402 general chemistry01 natural sciencesAntiviral AgentsCatalysisalcohols2-PropanolBetacoronavirusViewpointantiviralsPolitical sciencePandemicHumansPandemicshealth care economics and organizationsEthanol010405 organic chemistrybusiness.industrySARS-CoV-2pandemicCOVID-19General MedicineGeneral ChemistryDNA-Directed RNA PolymerasesPublic relations0104 chemical sciencesDilemmaOutreachViewpointsChemists in the CommunitybusinessCoronavirus InfectionsdisinfectantsCoronavirus InfectionsAngewandte Chemie (International ed. in English)
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Mechanisms and consequences of methylating agent-induced SCEs and chromosomal aberrations: a long road traveled and still a far way to go.

2003

Since the milestone work of Evans and Scott, demonstrating the replication dependence of alkylation-induced aberrations, and Obe and Natarajan, pointing to the critical role of DNA double-strand breaks (DSBs) as the ultimate trigger of aberrations, the field has grown extensively. A notable example is the identification of DNA methylation lesions provoking chromosome breakage (clastogenic) effects, which made it possible to model clastogenic pathways evoked by genotoxins. Experiments with repair-deficient mutants and transgenic cell lines revealed both O<sup>6</sup>-methylguanine (O<sup>6</sup>MeG) and N- methylpurines as critical lesions. For S<sub>N</sub&g…

DNA ReplicationAlkylating AgentsGuanineDNA RepairDNA damageDNA repairBase Pair MismatchApoptosisBiologyMethylationLesionAnimals Genetically ModifiedMiceO(6)-Methylguanine-DNA MethyltransferaseCricetulusCricetinaeGeneticsmedicineAnimalsHumansPoint MutationAP siteMolecular BiologyGenetics (clinical)Chromosome AberrationsRecombination GeneticGuanosineModels GeneticCell CycleDNA replicationDNAFibroblastsMolecular biologyCell killingCell Transformation NeoplasticCancer researchDNA mismatch repairChromosome breakagemedicine.symptomSister Chromatid ExchangeDNA DamageMutagensCytogenetic and genome research
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Late activation of stress kinases (SAPK/JNK) by genotoxins requires the DNA repair proteins DNA-PKcs and CSB.

2005

Although genotoxic agents are powerful inducers of stress kinases (SAPK/JNK), the contribution of DNA damage itself to this response is unknown. Therefore, SAPK/JNK activation of cells harboring specific defects in DNA damage-recognition mechanisms was studied. Dual phosphorylation of SAPK/JNK by the genotoxin methyl methanesulfonate (MMS) occurred in two waves. The early response (≤2 h after exposure) was similar in cells knockout for ATM, PARP, p53, and CSB or defective in DNA-PKcscompared with wild-type cells. The late response however (≥4 h), was drastically reduced in DNA-PKcsand Cockayne's syndrome B (CSB)-deficient cells. Similar results were obtained with human cells lacking DNA-PKc…

DNA ReplicationAlkylationDNA RepairDNA damageDNA repairPoly ADP ribose polymeraseDNA-Activated Protein KinaseBiologyModels Biologicalchemistry.chemical_compoundMiceAnimalsHumansPhosphorylationPoly-ADP-Ribose Binding ProteinsMolecular BiologyDNA-PKcsCells CulturedKinaseDNA HelicasesJNK Mitogen-Activated Protein KinasesNuclear ProteinsCell BiologyBase excision repairDNAArticlesMethyl MethanesulfonateMolecular biologyMethyl methanesulfonateDNA-Binding ProteinsEnzyme Activationenzymes and coenzymes (carbohydrates)DNA Repair EnzymeschemistryPhosphorylationProtein Processing Post-TranslationalDNA DamageMutagensSignal TransductionMolecular biology of the cell
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Transformation of Aspergillus parasiticus using autonomously replicating plasmids from Aspergillus nidulans.

1994

A genetic transformation system for the aflatoxin-producing fungus Aspergillus parasiticus using two autonomously replicating plasmids from A. nidulans (ARp1 and pDHG25) is reported. Transformation frequencies using the plasmid pDHG25 were from 5 x 10(2) to 2.5 x 10(4) transformants per 10(6) viable protoplasts and microgram DNA. The stability of the plasmids in the transformants was also studied. This transformation system offers a new opportunity to clone genes related to aflatoxin production using appropriate aflatoxin-defective mutants.

DNA ReplicationArginine BAutonomously replicating sequenceMitosisLaboratorium voor ErfelijkheidsleerMicrobiologyAspergillus parasiticusAspergillus nidulansMicrobiologyGenetic transformationchemistry.chemical_compoundPlasmidTransformation GeneticAutonomous replicationAspergillus nidulansGeneticsDNA FungalMolecular BiologyGeneGeneticsAspergillus nidulans autonomous replicating plasmidbiologyProtoplastsfood and beveragesProtoplastbiology.organism_classificationAspergillus parasiticusTransformation (genetics)AspergilluschemistryLaboratory of GeneticsDNAPlasmidsFEMS microbiology letters
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Histone carbonylation occurs in proliferating cells

2012

12 páginas, 10 figuras (que no es encuentran en este documento, se pueden ver en: http://www.sciencedirect.com/science/article/pii/S0891584912000664)

DNA ReplicationBlotting WesternCarbonylationFree radicalsBiologyBiochemistryHistonesMicePhysiology (medical)Histone methylationHistone H2AAnimalsHistone codeEpigeneticsPhosphorylationPoly(ADP-ribosyl)ationCell proliferationEpigenomicsChromatinHistoneBiochemistryHistone methyltransferaseNIH 3T3 Cellsbiology.proteinEpigenetics
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Functional Inactivation of pRB Results in Aneuploid Mammalian Cells After Release From a Mitotic Block

2002

AbstractThe widespread chromosome instability observed in tumors and in early stage carcinomas suggests that aneuploidy could be a prerequisite for cellular transformation and tumor initiation. Defects in tumor suppressers and genes that are part of mitotic checkpoints are likely candidates for the aneuploid phenotype. By using flow cytometric, cytogenetic, immunocytochemistry techniques we investigated whether pRB deficiency could drive perpetual aneuploidy in normal human and mouse fibroblasts after mitotic checkpoint challenge by microtubule-destabilizing drugs. Both mouse and human pRB-deficient primary fibroblasts resulted, upon release from a mitotic block, in proliferating aneuploid …

DNA ReplicationCancer ResearchBrief ArticleClone (cell biology)MitosisAneuploidyCre recombinaseSpindle Apparatuslcsh:RC254-282Retinoblastoma ProteinColony-Forming Units AssayMicechemistry.chemical_compoundChromosome instabilitymedicineAnimalsHumanscentrosomesCINGenes RetinoblastomaMitosisCells CulturedIn Situ Hybridization FluorescenceCentrosomeCell cycle controlbiologyColcemidChromosome FragilityCell CycleGINDemecolcineRetinoblastoma proteinAneuploidy; Cell cycle control; Centrosomes; CIN; PRB;FibroblastsCell cyclelcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogensAneuploidyFlow Cytometrymedicine.diseaseAntineoplastic Agents PhytogenicCell biologyCell Transformation NeoplasticPRBMicroscopy Fluorescencechemistrybiology.proteinFemaleNeoplasia
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Fen1 is induced p53 dependently and involved in the recovery from UV-light-induced replication inhibition.

2005

Mouse embryonic fibroblasts (MEFs) that lack p53 are hypersensitive to the cytotoxic and genotoxic effect of ultraviolet (UV-C) light. They also display a defect in the recovery from UV-C-induced DNA replication inhibition. An enzyme involved in processing stalled DNA replication forks is flap endonuclease 1 (Fen1). Gene expression profiling of UV-C-irradiated MEFs revealed fen1 to be upregulated, which was confirmed by RT-PCR and Western blot experiments. Increased Fen1 levels upon UV-C exposure are due to transcriptional activation, as revealed by inhibitor studies. Fen1 induction was dose- and time-dependent; it occurred on protein level already 3 h after irradiation. Induction of Fen1 b…

DNA ReplicationCancer ResearchDNA damageDNA repairFlap EndonucleasesUltraviolet RaysMolecular Sequence DataGene ExpressionCHO CellsBiologyTransfectionchemistry.chemical_compoundMiceCricetinaeGeneticsNull cellAnimalsPromoter Regions GeneticMolecular BiologyCell ProliferationBase SequenceCell growthDNA replicationTransfection3T3 CellsDNAMolecular biologyDNA Replication InhibitionchemistryEnzyme InductionTumor Suppressor Protein p53DNAOncogene
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