Search results for "Elements"

showing 10 items of 799 documents

Oncogenic Deregulation of EZH2 as an Opportunity for Targeted Therapy in Lung Cancer.

2016

Abstract As a master regulator of chromatin function, the lysine methyltransferase EZH2 orchestrates transcriptional silencing of developmental gene networks. Overexpression of EZH2 is commonly observed in human epithelial cancers, such as non–small cell lung carcinoma (NSCLC), yet definitive demonstration of malignant transformation by deregulated EZH2 remains elusive. Here, we demonstrate the causal role of EZH2 overexpression in NSCLC with new genetically engineered mouse models of lung adenocarcinoma. Deregulated EZH2 silences normal developmental pathways, leading to epigenetic transformation independent of canonical growth factor pathway activation. As such, tumors feature a transcrip…

0301 basic medicineModels MolecularLung Neoplasmsmedicine.medical_treatmentMolecular ConformationGene ExpressionAntineoplastic Agentsmacromolecular substancesBiologymedicine.disease_causeArticleMalignant transformationTargeted therapy03 medical and health sciencesMiceStructure-Activity RelationshipCell Line TumormedicineAnimalsHumansEnhancer of Zeste Homolog 2 ProteinMolecular Targeted TherapyLung cancerPromoter Regions GeneticGene Expression ProfilingEZH2Cancermedicine.diseaseMagnetic Resonance ImagingXenograft Model Antitumor AssaysChromatinrespiratory tract diseasesGene Expression Regulation NeoplasticDisease Models Animal030104 developmental biologyCell Transformation NeoplasticEnhancer Elements GeneticOncologyDrug DesignCancer researchAdenocarcinomaKRASEpigenetic therapyCancer discovery
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Transcriptomic data from panarthropods shed new light on the evolution of insulator binding proteins in insects : Insect insulator proteins.

2016

Background Body plan development in multi-cellular organisms is largely determined by homeotic genes. Expression of homeotic genes, in turn, is partially regulated by insulator binding proteins (IBPs). While only a few enhancer blocking IBPs have been identified in vertebrates, the common fruit fly Drosophila melanogaster harbors at least twelve different enhancer blocking IBPs. We screened recently compiled insect transcriptomes from the 1KITE project and genomic and transcriptomic data from public databases, aiming to trace the origin of IBPs in insects and other arthropods. Results Our study shows that the last common ancestor of insects (Hexapoda) already possessed a substantial number …

0301 basic medicineMost recent common ancestormedia_common.quotation_subjectInsectDipluraGene evolutionEvolution Molecular03 medical and health sciencesArthropod evolutionGeneticsAnimalsEnhancerArthropodsPhylogenymedia_commonGeneticsbiologyGene Expression ProfilingfungiComparative transcriptomic analysesbiology.organism_classificationInsulator binding proteinsNeopteraDNA-Binding Proteins030104 developmental biologyBody planDrosophila melanogasterEnhancer Elements GeneticInsulator ElementsDrosophila melanogasterHomeotic geneTranscriptomeBiotechnologyResearch ArticleBMC genomics
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Epigenomic landscape of human colorectal cancer unveils an aberrant core of pan-cancer enhancers orchestrated by YAP/TAZ

2021

Cancer is characterized by pervasive epigenetic alterations with enhancer dysfunction orchestrating the aberrant cancer transcriptional programs and transcriptional dependencies. Here, we epigenetically characterize human colorectal cancer (CRC) using de novo chromatin state discovery on a library of different patient-derived organoids. By exploring this resource, we unveil a tumor-specific deregulated enhancerome that is cancer cell-intrinsic and independent of interpatient heterogeneity. We show that the transcriptional coactivators YAP/TAZ act as key regulators of the conserved CRC gained enhancers. The same YAP/TAZ-bound enhancers display active chromatin profiles across diverse human t…

0301 basic medicineOrganoidEpigenomicsTranscription FactorGeneral Physics and AstronomyColorectal NeoplasmAdaptor Proteins Signal Transducing; Colorectal Neoplasms; Gene Expression Regulation Neoplastic; Histone Code; Humans; Models Genetic; Organoids; RNA-Seq; Single-Cell Analysis; Trans-Activators; Transcription Factors; Tumor Cells Cultured; Enhancer Elements Genetic; Epigenesis GeneticEpigenesis Genetic0302 clinical medicineModelsAdaptor Proteins Signal Transducing Colorectal Neoplasms Gene Expression Regulation NeoplasticHistone Code Humans Models Genetic Organoids RNA-Seq Single-Cell Analysis Trans-Activators Transcription Factors Tumor Cells Cultured Enhancer Elements Genetic Epigenesis GeneticTumor Cells CulturedCancer genomicsHistone codeRNA-SeqEpigenomicsAdaptor Proteins Signal Transducing; Colorectal Neoplasms; Gene Expression Regulation Neoplastic; Histone Code; Humans; Models Genetic; Organoids; RNA-Seq; Single-Cell Analysis; Trans-Activators; Transcription Factors; Transcriptional Coactivator with PDZ-Binding Motif Proteins; Tumor Cells Cultured; YAP-Signaling Proteins; Enhancer Elements Genetic; Epigenesis GeneticMultidisciplinaryCulturedQAdaptor Proteins3. Good healthChromatinTumor CellsGene Expression Regulation NeoplasticHistone CodeOrganoidsSingle-Cell AnalysiEnhancer Elements GeneticTrans-Activator030220 oncology & carcinogenesisSingle-Cell AnalysisColorectal NeoplasmsHumanEnhancer ElementsScienceTumour heterogeneityBiologyGeneral Biochemistry Genetics and Molecular BiologyArticle03 medical and health sciencesGeneticmedicineHumansEpigeneticsEnhancerTranscription factorAdaptor Proteins Signal TransducingNeoplasticModels GeneticSignal TransducingCancerYAP-Signaling ProteinsGeneral Chemistrymedicine.diseaseColorectal cancerdigestive system diseases030104 developmental biologyGene Expression RegulationTranscriptional Coactivator with PDZ-Binding Motif ProteinsCancer cellCancer researchTrans-ActivatorsEpigenesisTranscription Factors
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Mesopolysaccharides: The extracellular surface layer of visceral organs

2020

The mesothelium is a dynamic and specialized tissue layer that covers the somatic cavities (pleural, peritoneal, and pericardial) as well as the surface of the visceral organs such as the lung, heart, liver, bowel and tunica vaginalis testis. The potential therapeutic manipulation of visceral organs has been complicated by the carbohydrate surface layer—here, called the mesopolysaccharide (MPS)—that coats the outer layer of the mesothelium. The traditional understanding of MPS structure has relied upon fixation techniques known to degrade carbohydrates. The recent development of carbohydrate-preserving fixation for high resolution imaging techniques has provided an opportunity to re-examine…

0301 basic medicinePathologyRespiratory Systemlcsh:MedicineBiochemistryEpitheliumMice0302 clinical medicineLectinsMedicine and Health SciencesElectron Microscopylcsh:ScienceLungFixation (histology)MicroscopyMultidisciplinaryMembrane GlycoproteinsMicrovilliOrganic CompoundsChemistryQRThoraxExtracellular MatrixChemistrymedicine.anatomical_structureLiverTransmission electron microscopy030220 oncology & carcinogenesisPhysical SciencesPleuraeMedicineCellular Structures and OrganellesAnatomyResearch ArticleChemical Elementsmedicine.medical_specialtyScienceCarbohydratesResearch and Analysis MethodsRuthenium03 medical and health sciencesMicroscopy Electron TransmissionPolysaccharidesmedicineExtracellularAnimalsSurface layerProcess (anatomy)LungMyocardiumOrganic Chemistrylcsh:RChemical CompoundsBiology and Life SciencesProteinsCell BiologyMesothelium030104 developmental biologyMurine lungTransmission Electron Microscopylcsh:QLungsPLoS ONE
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A Thermodynamic Model of Monovalent Cation Homeostasis in the Yeast Saccharomyces cerevisiae

2016

Cationic and heavy metal toxicity is involved in a substantial number of diseases in mammals and crop plants. Therefore, the understanding of tightly regulated transporter activities, as well as conceiving the interplay of regulatory mechanisms, is of substantial interest. A generalized thermodynamic description is developed for the complex interplay of the plasma membrane ion transporters, membrane potential and the consumption of energy for maintaining and restoring specific intracellular cation concentrations. This concept is applied to the homeostasis of cation concentrations in the yeast cells of S. cerevisiae. The thermodynamic approach allows to model passive ion fluxes driven by the…

0301 basic medicinePhysiologyATPaseAntiporterYeast and Fungal ModelsPhysical ChemistryBiochemistryIon ChannelsCation homeostasisMedicine and Health SciencesHomeostasislcsh:QH301-705.5Membrane potentialEcologybiologyChemistryOrganic CompoundsPhysicsMonosaccharidesElectrophysiologyChemistryComputational Theory and MathematicsBiochemistryModeling and SimulationPhysical SciencesThermodynamicsProtonsAlgorithmsResearch ArticleChemical ElementsSaccharomyces cerevisiaeCarbohydratesSaccharomyces cerevisiaeResearch and Analysis MethodsMembrane PotentialModels Biological03 medical and health sciencesCellular and Molecular NeuroscienceSaccharomycesModel OrganismsCationsGeneticsMolecular BiologyEcology Evolution Behavior and SystematicsIon transporterNuclear PhysicsNucleonsIonsOrganic ChemistrySodiumChemical CompoundsOrganismsFungiBiology and Life SciencesComputational BiologyBiological Transportbiology.organism_classificationYeast030104 developmental biologyGlucoseMetabolismlcsh:Biology (General)SymporterActive transportbiology.proteinBiophysicsPLoS Computational Biology
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Metal homeostasis regulators suppress FRDA phenotypes in a drosophila model of the disease

2016

Friedreich's ataxia (FRDA), the most commonly inherited ataxia in populations of European origin, is a neurodegenerative disorder caused by a decrease in frataxin levels. One of the hallmarks of the disease is the accumulation of iron in several tissues including the brain, and frataxin has been proposed to play a key role in iron homeostasis. We found that the levels of zinc, copper, manganese and aluminum were also increased in a Drosophila model of FRDA, and that copper and zinc chelation improve their impaired motor performance. By means of a candidate genetic screen, we identified that genes implicated in iron, zinc and copper transport and metal detoxification can restore frataxin def…

0301 basic medicinePhysiologyGene Expressionlcsh:MedicineMitochondrionmedicine.disease_causeAntioxidantsIron-Binding ProteinsMedicine and Health SciencesHomeostasislcsh:ScienceGeneticsMultidisciplinarybiologyDrosophila MelanogasterIron-binding proteinsAnimal ModelsPhenotypeMitochondria3. Good healthInsectsDNA-Binding ProteinsChemistryZincPhenotypesPhysical SciencesDrosophilaAnatomymedicine.symptomDrosophila melanogasterResearch ArticleChemical ElementsAtaxiaArthropodaIronResearch and Analysis Methods03 medical and health sciencesModel OrganismsOcular SystemmedicineGeneticsAnimalsHumansGenetikManganeselcsh:ROrganismsBiology and Life SciencesCell Biologybiology.organism_classificationInvertebratesOxidative StressDisease Models Animal030104 developmental biologyFriedreich AtaxiaFrataxinbiology.proteinEyeslcsh:QPhysiological ProcessesCarrier ProteinsHeadCopperOxidative stressAluminumTranscription FactorsGenetic screen
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2018

Mobile genetic elements such as conjugative plasmids are responsible for antibiotic resistance phenotypes in many bacterial pathogens. The ability to conjugate, the presence of antibiotics, and ecological interactions all have a notable role in the persistence of plasmids in bacterial populations. Here, we set out to investigate the contribution of these factors when the conjugation network was disturbed by a plasmid-dependent bacteriophage. Phage alone effectively caused the population to lose plasmids, thus rendering them susceptible to antibiotics. Leakiness of the antibiotic resistance mechanism allowing Black Queen evolution (i.e. a "race to the bottom") was a more significant factor t…

0301 basic medicinePhysiologymedicine.drug_class030106 microbiologyAntibioticsPopulationBiochemistryMicrobiologyMicrobiologyBacteriophage03 medical and health sciencesPlasmidAntibiotic resistanceGeneticsmedicineeducationMolecular BiologyEcology Evolution Behavior and Systematics2. Zero hungereducation.field_of_studybiologyResistance (ecology)biology.organism_classificationComputer Science Applications030104 developmental biologyModeling and SimulationMobile genetic elementsBacteriamSystems
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Insights into the inhibited form of the redox-sensitive SufE-like sulfur acceptor CsdE

2017

17 p.-8 fig.

0301 basic medicineProtein ConformationDimerlcsh:MedicineMolecular DynamicsCrystallography X-RayPhysical ChemistryBiochemistryDEAD-box RNA HelicasesMolecular dynamicschemistry.chemical_compoundComputational ChemistryNucleophileBiochemical Simulationslcsh:ScienceMultidisciplinaryCrystallographyChemistryOrganic CompoundsPhysicsEscherichia coli ProteinsCondensed Matter Physics3. Good healthPhysical sciencesChemistryCarbon-Sulfur LyasesBiochemistryCrystal StructureResearch ArticleChemical ElementsProtein subunitChemical physicschemistry.chemical_elementOxidative phosphorylationMolecular Dynamics Simulation03 medical and health sciencesThiolsEscherichia coliSolid State PhysicsProtein Interaction Domains and MotifsChemical BondingOrganic Chemistrylcsh:RChemical CompoundsBiology and Life SciencesComputational BiologyDimers (Chemical physics)Hydrogen BondingCell BiologySulfurAcceptorRedox sensitiveOxidative Stress030104 developmental biologyBiophysicslcsh:QProtein MultimerizationSulfur
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Mechanism and biological role of Dnmt2 in Nucleic Acid Methylation

2016

ABSTRACT A group of homologous nucleic acid modification enzymes called Dnmt2, Trdmt1, Pmt1, DnmA, and Ehmet in different model organisms catalyze the transfer of a methyl group from the cofactor S-adenosyl-methionine (SAM) to the carbon-5 of cytosine residues. Originally considered as DNA MTases, these enzymes were shown to be tRNA methyltransferases about a decade ago. Between the presumed involvement in DNA modification-related epigenetics, and the recent foray into the RNA modification field, significant progress has characterized Dnmt2-related research. Here, we review this progress in its diverse facets including molecular evolution, structural biology, biochemistry, chemical biology,…

0301 basic medicineRetroelementsRNA methylationChemical biologyReviewBiologyMethylationCatalysisEpigenesis GeneticSubstrate Specificity03 medical and health scienceschemistry.chemical_compoundStructure-Activity RelationshipNucleic AcidsAnimalsHumansEpigeneticsDNA (Cytosine-5-)-MethyltransferasesGene SilencingMolecular BiologytRNAPhylogenyGeneticsNucleic acid methylationDNA methylationBinding SitesepigeneticsCell BiologyTRNA Methyltransferasesmethylcytidine030104 developmental biologyCell Transformation NeoplasticBiochemistrychemistryStructural biologyGene Expression RegulationNucleic acidRNA methylationDNAProtein BindingRNA Biology
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Temperature-dependent small RNA expression in Drosophila melanogaster

2018

Temperature has a major impact on gene expression in ectotherms. But until recently, it was not clear in which way, if any, small non-coding RNAs such as miRNAs or piRNAs contribute to thermosensitive gene regulation. We have recently shown that temperature-responsive miRNAs in Drosophila drive adaptation to different ambient temperatures on the transcriptome level. Moreover, we demonstrated that higher temperatures lead to a more efficient piRNA-dependent transposon silencing, possibly due to heat-induced unfolding of RNA secondary structures. In this commentary, we will dwell upon particular interesting aspects connected to our findings, hoping that our point of view may encourage other s…

0301 basic medicineSmall RNAComputational biologyEpigenesis GeneticEvolution MolecularTranscriptome03 medical and health sciencesStress PhysiologicalmicroRNAGene expressionAnimalsDrosophila ProteinsGene silencingRNA Small InterferingPoint of ViewMolecular BiologyRegulation of gene expressionbiologyGene Expression ProfilingTemperatureRNACell Biologybiology.organism_classificationMicroRNAsDrosophila melanogaster030104 developmental biologyGene Expression RegulationDNA Transposable ElementsDrosophila melanogasterRNA Biology
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