0000000000331644

AUTHOR

Merve ÖZtürk

0000-0003-2898-2176

showing 2 related works from this author

Npl3 stabilizes R-loops at telomeres to prevent accelerated replicative senescence.

2019

Abstract Telomere shortening rates must be regulated to prevent premature replicative senescence. TERRA R‐loops become stabilized at critically short telomeres to promote their elongation through homology‐directed repair (HDR), thereby counteracting senescence onset. Using a non‐bias proteomic approach to detect telomere binding factors, we identified Npl3, an RNA‐binding protein previously implicated in multiple RNA biogenesis processes. Using chromatin immunoprecipitation and RNA immunoprecipitation, we demonstrate that Npl3 interacts with TERRA and telomeres. Furthermore, we show that Npl3 associates with telomeres in an R‐loop‐dependent manner, as changes in R‐loop levels, for example, …

SenescenceProteomicssenescenceR-loopNpl3BiologyBiochemistryChromatin Epigenetics Genomics & Functional Genomics03 medical and health sciences0302 clinical medicineReportGeneticsMolecular BiologyCellular SenescenceTelomere Shortening030304 developmental biology0303 health sciencestelomereR‐loopRNAChromosomeRNA–DNA hybridTelomereCell biologyRna immunoprecipitationR-Loop StructuresChromatin immunoprecipitation030217 neurology & neurosurgeryBiogenesisReportsEMBO reports
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Chromatin modifiers and recombination factors promote a telomere fold-back structure, that is lost during replicative senescence.

2020

Telomeres have the ability to adopt a lariat conformation and hence, engage in long and short distance intra-chromosome interactions. Budding yeast telomeres were proposed to fold back into subtelomeric regions, but a robust assay to quantitatively characterize this structure has been lacking. Therefore, it is not well understood how the interactions between telomeres and non-telomeric regions are established and regulated. We employ a telomere chromosome conformation capture (Telo-3C) approach to directly analyze telomere folding and its maintenance in S. cerevisiae. We identify the histone modifiers Sir2, Sin3 and Set2 as critical regulators for telomere folding, which suggests that a dis…

TelomeraseProtein Folding:Chemicals and Drugs::Amino Acids Peptides and Proteins::Proteins::DNA-Binding Proteins::Rad52 DNA Repair and Recombination Protein [Medical Subject Headings]:Chemicals and Drugs::Amino Acids Peptides and Proteins::Proteins::Fungal Proteins::Saccharomyces cerevisiae Proteins [Medical Subject Headings]Gene ExpressionYeast and Fungal ModelsArtificial Gene Amplification and ExtensionQH426-470BiochemistryPolymerase Chain ReactionChromosome conformation captureHistonesCromatina0302 clinical medicineSirtuin 2Macromolecular Structure AnalysisSilent Information Regulator Proteins Saccharomyces cerevisiaeCellular Senescence:Organisms::Eukaryota::Fungi::Yeasts::Saccharomyces::Saccharomyces cerevisiae [Medical Subject Headings]0303 health sciencesChromosome BiologyEukaryota:Phenomena and Processes::Genetic Phenomena::Genetic Processes::DNA Replication [Medical Subject Headings]TelomereSubtelomere:Anatomy::Cells::Cellular Structures::Intracellular Space::Cell Nucleus::Cell Nucleus Structures::Intranuclear Space::Chromosomes::Chromosome Structures::Telomere [Medical Subject Headings]Chromatin3. Good healthChromatinCell biologyNucleic acidsTelomeres:Phenomena and Processes::Cell Physiological Phenomena::Cell Physiological Processes::Cell Cycle::Cell Division::Telomere Homeostasis [Medical Subject Headings]Experimental Organism SystemsDaño del ADNEpigeneticsResearch ArticleSenescenceDNA Replication:Chemicals and Drugs::Enzymes and Coenzymes::Enzymes::Hydrolases::Amidohydrolases::Histone Deacetylases [Medical Subject Headings]Chromosome Structure and FunctionProtein StructureSaccharomyces cerevisiae ProteinsSaccharomyces cerevisiaeBiologyResearch and Analysis MethodsHistone DeacetylasesChromosomes03 medical and health sciencesSaccharomycesModel Organisms:Chemicals and Drugs::Enzymes and Coenzymes::Enzymes::Transferases::One-Carbon Group Transferases::Methyltransferases [Medical Subject Headings]:Chemicals and Drugs::Amino Acids Peptides and Proteins::Proteins::Intracellular Signaling Peptides and Proteins::Sirtuins::Sirtuin 2 [Medical Subject Headings]:Chemicals and Drugs::Amino Acids Peptides and Proteins::Proteins::Fungal Proteins::Saccharomyces cerevisiae Proteins::Silent Information Regulator Proteins Saccharomyces cerevisiae [Medical Subject Headings]DNA-binding proteinsGenetics:Chemicals and Drugs::Enzymes and Coenzymes::Enzymes::Recombinases::Rec A Recombinases::Rad51 Recombinase [Medical Subject Headings]Molecular Biology TechniquesMolecular Biology030304 developmental biologyCromosomasSenescencia celularOrganismsFungiBiology and Life SciencesProteinsTelomere HomeostasisCell BiologyDNAMethyltransferasesG2-M DNA damage checkpointProteína recombinante y reparadora de ADN Rad52YeastTelomereRad52 DNA Repair and Recombination ProteinRepressor ProteinsAnimal Studies:Chemicals and Drugs::Amino Acids Peptides and Proteins::Proteins::Transcription Factors::Repressor Proteins [Medical Subject Headings]DNA damageRad51 RecombinaseHomologous recombination030217 neurology & neurosurgeryTelómeroDNA DamagePLoS Genetics
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