Search results for "Pyrimidine Dimers"

showing 10 items of 14 documents

DNA replication arrest in response to genotoxic stress provokes early activation of stress-activated protein kinases (SAPK/JNK).

2009

Abstract The impact of DNA damage-induced replication blockage for early activation of stress kinases [stress-activated protein kinase (SAPK)/c-Jun N-terminal kinase (JNK)] is largely unknown. Here, we show that induction of dual phosphorylation of SAPK/JNK by the DNA polymerase inhibitor aphidicolin was not ameliorated by additional exposure to ultraviolet (UV) light, indicating that overlapping mechanisms participate in signaling to SAPK/JNK triggered by both agents. UV-induced DNA replication blockage, cyclobutane pyrimidine dimer formation and DNA strand break induction coincided with SAPK/JNK phosphorylation at early (≤ 30 min) but not late (≥ 2 h) time points after exposure. Genotoxin…

AphidicolinDNA ReplicationDNA damageUltraviolet RaysPoly ADP ribose polymeraseCell Linechemistry.chemical_compoundMiceAphidicolinStructural BiologyCricetinaeAnimalsHumansLymphocytesPhosphorylationProtein kinase AMolecular BiologyNucleic Acid Synthesis InhibitorsBRCA2 ProteinMice KnockoutbiologyKinaseCell CycleDNA replicationJNK Mitogen-Activated Protein KinasesFibroblastsMolecular biologyProliferating cell nuclear antigenDNA-Binding ProteinsEnzyme ActivationchemistryPyrimidine Dimersbiology.proteinPhosphorylationApoptosis Regulatory ProteinsDNA DamageJournal of molecular biology
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Influences of histone deacetylase inhibitors and resveratrol on DNA repair and chromatin compaction

2013

Accessibility of DNA is a prerequisite for both DNA damage and repair. Therefore, the chromatin structure is expected to have major impact on both processes, with opposite consequences for the stability of the genome. To analyse the influence of chromatin compaction on the generation and repair of various types of DNA modifications, we modulated the global chromatin structure of AS52 Chinese hamster ovary cells and HeLa cells by treatment with either histone deacetylase inhibitors or resveratrol and measured the repair kinetics of (i) pyrimidine dimers induced by ultraviolet B, (ii) oxidised purines generated by photosensitisation and (iii) single-strand breaks induced by H2O2, using an alk…

DNA RepairUltraviolet RaysDNA damageDNA repairHealth Toxicology and MutagenesisCarbazolesCHO CellsHydroxamic AcidsToxicologyChromatin remodelingCricetulusStilbenesHistone H2AGeneticsmedicineAnimalsDeoxyribonuclease IHumansDNA Breaks Single-StrandedGenetics (clinical)EpigenomicsbiologyChemistryMolecular biologyChromatinCell biologyProliferating cell nuclear antigenChromatinHistone Deacetylase InhibitorsButyratesTrichostatin APyrimidine DimersResveratrolbiology.proteinHeLa Cellsmedicine.drugMutagenesis
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c-Fos is required for excision repair of UV-light induced DNA lesions by triggering the re-synthesis of XPF

2006

Cells deficient in c-Fos are hypersensitive to ultraviolet (UV-C) light. Here we demonstrate that mouse embryonic fibroblasts lacking c-Fos (fos-/-) are defective in the repair of UV-C induced DNA lesions. They show a decreased rate of sealing of repair-mediated DNA strand breaks and are unable to remove cyclobutane pyrimidine dimers from DNA. A search for genes responsible for the DNA repair defect revealed that upon UV-C treatment the level of xpf and xpg mRNA declined but, in contrast to the wild type (wt), did not recover in fos-/- cells. The observed decline in xpf and xpg mRNA is due to impaired re-synthesis, as shown by experiments using actinomycin D. Block of xpf transcription resu…

DNA RepairUltraviolet RaysDNA repairDNA damageRNA StabilityGene ExpressionPyrimidine dimerBiologyCell LineMicechemistry.chemical_compoundTranscription (biology)Gene expressionGeneticsAnimalsDNA Breaks Single-StrandedRNA MessengerMolecular BiologyTranscription factorMice KnockoutGenetic Complementation TestGenes fosNuclear ProteinsDNAEndonucleasesMolecular biologyDNA-Binding ProteinsTranscription Factor AP-1chemistryPyrimidine DimersDNADNA DamageTranscription FactorsNucleotide excision repairNucleic Acids Research
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Specific detection of cyclobutane pyrimidine dimers in phytoplankton DNA by a non-radioactive assay based on T4-endonuclease V digestion.

2001

The effect of artificial and natural UV irradiation on DNA in marine phytoplankton Isochrysis galbana monoculture was investigated. The presence of cyclobutane pyrimidine dimers (CPDs) in unlabelled I. galbana DNA was detected by a non-radiometric alkaline filter elution assay after T4-endonuclease V digestion. The quantity of CPDs was estimated by alkaline agarose gel electrophoresis. Precise determination of the amount of DNA in the presence of I. galbana pigments was achieved by oxazole yellow homodimer (YOYO) dye. T4-endonuclease V-sensitive sites frequency (ESS/kb), measured after exposure to 2-40 kJ m(-2) of artificial UV light, increased in a dose-dependent manner. Twelve hours after…

Environmental EngineeringDNA RepairDNA damageDNA repairUltraviolet RaysPyrimidine dimerIsochrysis galbanachemistry.chemical_compoundPigmentDeoxyribonuclease (Pyrimidine Dimer)Viral ProteinsEnvironmental ChemistryWaste Management and DisposalEndodeoxyribonucleasesbiologyAlkaline filter elution; crude oil; DNA damage; phytoplankton; UV; sunlightbiology.organism_classificationPollutionPetroleumBiochemistrychemistryCell culturePyrimidine Dimersvisual_artAgarose gel electrophoresisPhytoplanktonvisual_art.visual_art_mediumSunlightBiological AssayDNADNA DamageThe Science of the total environment
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Visible light (>395nm) causes micronuclei formation in mammalian cells without generation of cyclobutane pyrimidine dimers

2004

Solar radiation gives rise to DNA damage in mammalian cells not only directly by excitation of DNA, which generates predominantly pyrimidine dimers, but also indirectly by the excitation of endogenous photosensitizers, which causes oxidative DNA modifications. The latter mechanism has a low quantum yield, but it is the only one proceeding in the visible range of the spectrum. To investigate its relevance for the genotoxicity of sunlight, we have analysed the generation of micronuclei associated with the induction of oxidative DNA damage by visible light in melanoma cells and primary human skin fibroblasts. Similar yields of light-induced oxidative DNA base modifications sensitive to the rep…

MalePurineLightDNA damageHealth Toxicology and MutagenesisPyrimidine dimerOxidative phosphorylationmedicine.disease_causechemistry.chemical_compoundTumor Cells CulturedGeneticsmedicineAnimalsHumansMelanomaMolecular BiologyGeneticsMicronucleus TestsMiddle AgedchemistryPyrimidine DimersDNA glycosylaseMicronucleus testBiophysicsDNAGenotoxicityMutation Research/Fundamental and Molecular Mechanisms of Mutagenesis
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Combined QM/MM investigation on the light-driven electron-induced repair of the (6-4) thymine dimer catalyzed by DNA photolyase.

2013

The (6-4) photolyases are blue-light-activated enzymes that selectively bind to DNA and initiate splitting of mutagenic thymine (6-4) thymine photoproducts (T(6-4)T-PP) via photoinduced electron transfer from flavin adenine dinucleotide anion (FADH(-)) to the lesion triggering repair. In the present work, the repair mechanism after the initial electron transfer and the effect of the protein/DNA environment are investigated theoretically by means of hybrid quantum mechanical/molecular mechanical (QM/MM) simulations using X-ray structure of the enzyme-DNA complex. By comparison of three previously proposed repair mechanisms, we found that the lowest activation free energy is required for the …

Models MolecularDNA RepairLightStereochemistryPyrimidine dimerElectronsPhotochemistryPhotoinduced electron transferQM/MMElectron Transportchemistry.chemical_compoundElectron transferMaterials ChemistryAnimalsPhysical and Theoretical ChemistryPhotolyaseta116ta114Chemistryta1182DNA photolyaseDNASurfaces Coatings and FilmsThymineDrosophila melanogasterPyrimidine DimersBiocatalysisQuantum TheoryProtonsDeoxyribodipyrimidine Photo-LyaseDNAThe journal of physical chemistry. B
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Photoinduced Formation Mechanism of the Thymine−Thymine (6−4) Adduct

2013

The photoinduced mechanism leading to the formation of the thymine-thymine (6-4) photolesion has been studied by using the CASPT2//CASSCF approach over a dinucleotide model in vacuo. Following light absorption, localization of the excitation on a single thymine leads to fast singlet-triplet crossing that populates the triplet (3)(nπ*) state of thymine. This state, displaying an elongated C(4)═O bond, triggers (6-4) dimer formation by reaction with the C(5)═C(6) double bond of the adjacent thymine, followed by a second intersystem crossing, which acts as a gate between the excited state of the reactant and the ground state of the photoproduct. The requirement of localized excitation on just …

Models MolecularDouble bondUltraviolet RaysphotolesionDimerÀcids nucleicsQuantum yieldthymine−thymine dimer010402 general chemistryPhotochemistry01 natural sciencesAdductDNA Adductschemistry.chemical_compound0103 physical sciencesMaterials ChemistryPhysical and Theoretical Chemistrychemistry.chemical_classificationphotochemistry010304 chemical physicsChemistryDNA3. Good health0104 chemical sciencesSurfaces Coatings and FilmsThymineIntersystem crossingPyrimidine DimersExcited stateCASPT2//CASSCFQuantum TheoryGround stateFisicoquímica
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Experimental and Theoretical Study on the Cycloreversion of a Nucleobase-Derived Azetidine by Photoinduced Electron Transfer.

2018

[EN] Azetidines are interesting compounds in medicine and chemistry as bioactive scaffolds and synthetic intermediates. However, photochemical processes involved in the generation and fate of azetidine-derived radical ions have scarcely been reported. In this context, the photoreduction of this four-membered heterocycle might be relevant in connection with the DNA (6-4) photoproduct obtained from photolyase. Herein, a stable azabipyrimidinic azetidine (AZT(m)), obtained from cycloaddition between thymine and 6-azauracil units, is considered to be an interesting model of the proposed azetidine-like intermediate. Hence, its photoreduction and photo-oxidation are thoroughly investigated throug…

Models MolecularPhotochemistryRadicalAzetidinePyrimidine dimer010402 general chemistryPhotochemistry01 natural sciencesCatalysisPhotoinduced electron transferNucleobaseCyclobutaneElectron transferElectron Transportchemistry.chemical_compoundElectron transferQUIMICA ORGANICAUracilCycloadditionAza CompoundsCycloaddition Reaction010405 organic chemistryOrganic ChemistryGeneral ChemistryRadicalsPhotochemical Processes0104 chemical sciencesThymineDensity functional calculationsPyrimidineschemistryPyrimidine DimersAzetidinesOxidation-ReductionThymineChemistry (Weinheim an der Bergstrasse, Germany)
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Theoretical insight into the intrinsic ultrafast formation of cyclobutane pyrimidine dimers in UV-irradiated DNA: thymine versus cytosine.

2008

The higher formation yields measured in the ultrafast photoinduced formation of cyclobutane thymine dimers (T T) with respect to those of cytosine (C C) are explained, on the basis of ab initio CASPT2 results, by the existence in thymine of more reactive orientations and a less efficient photoreversibility, whereas in cytosine the funnel toward the photolesion becomes competitive with that mediating the internal conversion of the excited-cytosine monomer.

Models MolecularTime FactorsUltraviolet RaysAb initioPyrimidine dimerDNAInternal conversion (chemistry)PhotochemistrySurfaces Coatings and FilmsThymineCyclobutanechemistry.chemical_compoundCytosineMonomerchemistryPyrimidine DimersMaterials ChemistryNucleic Acid ConformationPhysical and Theoretical ChemistryCytosineDNAThymineDNA DamageThe journal of physical chemistry. B
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Photoinduced DNA Lesions in Dormant Bacteria: The Peculiar Route Leading to Spore Photoproducts Characterized by Multiscale Molecular Dynamics

2020

International audience; Some bacterial species enter a dormant state in the form of spores to resist to unfavorable external conditions. Spores are resistant to a wide series of stress agents, including UV radiation, and can last for tens to hundreds of years. Due to the suspension of biological functions, such as DNA repair, they accumulate DNA damage upon exposure to UV radiation. Differently from active organisms, the most common DNA photoproducts in spores are not cyclobutane pyrimidine dimers, but rather the so‐called spore photoproducts. This noncanonical photochemistry results from the dry state of DNA and its binding to small, acid‐soluble proteins that drastically modify the struct…

Molecular modelDNA repairDNA damageUltraviolet RaysPyrimidine dimerMolecular Dynamics Simulation010402 general chemistry01 natural sciencesMolecular mechanicsCatalysischemistry.chemical_compound[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biochemistry [q-bio.BM]Spores Bacterial010405 organic chemistryChemistryOrganic ChemistryfungiGeneral ChemistryDNA0104 chemical sciencesSporePyrimidine DimersBiophysicsNucleic acidDNADNA Damage
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