Search results for "Transcription factors"

showing 10 items of 848 documents

Saccharomyces cerevisiae Rds2 transcription factor involvement in cell wall composition and architecture

2008

Although the cell wall is very important in yeasts, relatively little is known about the relationship between its structure and function. In Saccharomyces cerevisiae, a family of 55 transcription factor proteins unique to fungi, so-called zinc cluster proteins, has been described. Of these, Rds2 has been identified as an activator/inhibitor of gluconeogenesis. However, previous studies have pointed out additional roles for this protein, specifically, in the modulation of cell-wall architecture and drug sensitivity. In this work, evidence regarding the role of Rds2 as a regulator of cell-wall architecture and composition is presented based on phenotypical analysis of the cell walls prepared …

Cell wall:CIENCIAS DE LA VIDA::Microbiología [UNESCO]Gene RDS2Transcription factorsSaccharomyces cerevisiaeSaccharomyces cerevisiae; Transcription factors; Gene RDS2; Cell wallSaccharomyces cerevisiae ; Transcription factors ; Gene RDS2 ; Cell wallUNESCO::CIENCIAS DE LA VIDA::Microbiología
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PTHrP [67-86] regulates the expression of stress proteins in breast cancer cells inducing modifications in urokinase-plasminogen activator and MMP-1 …

2003

It was previously reported that a midregion domain of parathyroid hormone-related protein (PTHrP), that is, [67-86]-amide, is able to restrain growth and promote matrigel penetration by the 8701-BC cell line, derived from a biopsy fragment of a primary ductal infiltrating carcinoma of the human breast, and that cell invasion in vitro is drastically impaired by inactivation of urokinase-plasminogen activator (uPa). In this study we started a more detailed investigation of the possible effects on gene expression arising from the interaction between PTHrP [67-86]-amide and 8701-BC breast cancer cells by a combination of conventional-, differential display-and semi-quantitative multiplex-polyme…

CellBreast NeoplasmsBiologyHeat Shock Transcription FactorsDownregulation and upregulationCell Line TumorHeat shock proteinmedicineHumansNeoplasm InvasivenessHSP90 Heat-Shock ProteinsEnzyme InhibitorsHSF1Heat-Shock ProteinsMatrigelActivator (genetics)CarcinomaParathyroid Hormone-Related ProteinCell BiologyOligonucleotides AntisenseUrokinase-Type Plasminogen ActivatorMolecular biologyPeptide FragmentsProtein Structure TertiaryUp-RegulationDNA-Binding ProteinsGene Expression Regulation NeoplasticHeat shock factormedicine.anatomical_structureCell cultureCancer researchFemaleQuercetinMatrix Metalloproteinase 1Transcription FactorsJournal of Cell Science
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Hypoxia and HIF Signaling: One Axis with Divergent Effects

2020

The correct concentration of oxygen in all tissues is a hallmark of cellular wellness, and the negative regulation of oxygen homeostasis is able to affect the cells and tissues of the whole organism. The cellular response to hypoxia is characterized by the activation of multiple genes involved in many biological processes. Among them, hypoxia-inducible factor (HIF) represents the master regulator of the hypoxia response. The active heterodimeric complex HIF α/β, binding to hypoxia-responsive elements (HREs), determines the induction of at least 100 target genes to restore tissue homeostasis. A growing body of evidence demonstrates that hypoxia signaling can act by generating contrasting res…

CellInflammationReviewBiologyCatalysislcsh:ChemistryInorganic ChemistryImmune systemSettore BIO/13 - Biologia ApplicataOxygen homeostasisBasic Helix-Loop-Helix Transcription FactorsmedicineHumansRNA MessengerAcute and chronic diseasesPhysical and Theoretical ChemistryHypoxialcsh:QH301-705.5Molecular BiologySpectroscopyTissue homeostasisInflammationKidneyImmune cellsOrganic ChemistryHIF-αNuclear ProteinsGeneral MedicineHypoxia (medical)Cell HypoxiaComputer Science ApplicationsCell biologyDNA-Binding ProteinsOxygenmedicine.anatomical_structurelcsh:Biology (General)lcsh:QD1-999Hypoxia-Inducible Factor 1medicine.symptomSignal transductionSignal TransductionTranscription FactorsInternational Journal of Molecular Sciences
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Dihydrocucurbitacin B Inhibits Delayed Type Hypersensitivity Reactions by Suppressing Lymphocyte Proliferation

2007

We have studied the effects of dihydrocucurbitacin B, a triterpene isolated from Cayaponia tayuya roots, on different models of delayed type hypersensitivity (DTH) in mice, as well as on T-lymphocyte proliferation and the mediators involved. In experiments with mice, dihydrocucurbitacin B inhibited the inflammatory reactions induced by oxazolone, dinitrofluorobenzene, and sheep red blood cells, reducing both the edema and cell infiltration. Moreover, the analysis of inflamed tissues showed that dihydrocucurbitacin B reduced the presence of the most relevant cytokines implicated in these processes, including interleukin-1 beta, interleukin-4, and tumor necrosis factor-alpha. Dihydrocucurbita…

CellLymphocyte proliferationLymphocyte ActivationResting Phase Cell CycleOxazoloneMicechemistry.chemical_compoundCyclinsmedicineAnimalsHypersensitivity DelayedCyclinInflammationPharmacologyNFATC Transcription FactorsbiologyNFATCell cyclebiology.organism_classificationMolecular biologyTriterpenesCayaponia tayuyaDisease Models Animalmedicine.anatomical_structurechemistryImmunologyCytokinesMolecular MedicineTumor necrosis factor alphaJournal of Pharmacology and Experimental Therapeutics
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The ladybird homeobox genes are essential for the specification of a subpopulation of neural cells

2004

AbstractIn Drosophila, neurons and glial cells are produced by neural precursor cells called neuroblasts (NBs), which can be individually identified. Each NB generates a characteristic cell lineage specified by a precise spatiotemporal control of gene expression within the NB and its progeny. Here we show that the homeobox genes ladybird early and ladybird late are expressed in subsets of cells deriving from neuroblasts NB 5-3 and NB 5-6 and are essential for their correct development. Our analysis revealed that ladybird in Drosophila, like their vertebrate orthologous Lbx1 genes, play an important role in cell fate specification processes. Among those cells that express ladybird are NB 5-6…

Cellular differentiationApoptosisAnimals Genetically ModifiedNeuroblastPrecursor cellGlial cellsmedicineHomeoboxAnimalsDrosophila ProteinsCell LineageMolecular BiologyBody PatterningGeneticsHomeodomain ProteinsNeuronsbiologyGene Expression Regulation DevelopmentalCell DifferentiationCell Biologybiology.organism_classificationLadybirdCell biologymedicine.anatomical_structureDrosophila melanogasternervous systemVentral nerve cordIdentity specificationHomeoboxNeurogliaDrosophilaDrosophila melanogasterCNSNeurogliaDrosophila ProteinTranscription FactorsDevelopmental BiologyDevelopmental Biology
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The transcription factor Interferon Regulatory Factor 4 is required for the generation of protective effector CD8 + T cells

2013

Robust cytotoxic CD8 + T-cell response is important for immunity to intracellular pathogens. Here, we show that the transcription factor IFN Regulatory Factor 4 (IRF4) is crucial for the protective CD8 + T-cell response to the intracellular bacterium Listeria monocytogenes . IRF4-deficient ( Irf4 −/− ) mice could not clear L. monocytogenes infection and generated decreased numbers of L. monocytogenes -specific CD8 + T cells with impaired effector phenotype and function. Transfer of wild-type CD8 + T cells into Irf4 −/− mice improved bacterial clearance, suggesting an intrinsic defect of CD8 + T cells in Irf4 −/− mice. Following transfer into wild-type recipients, Irf4 −/− CD8 + T cells bec…

Cellular differentiationGene ExpressionEomesoderminBiologyMiceInterleukin 21AnimalsCytotoxic T cellListeriosisIL-2 receptorAntigen-presenting cellSTAT4Cell ProliferationMice KnockoutMultidisciplinaryCell DifferentiationBiological SciencesListeria monocytogenesMolecular biologyMice Inbred C57BLHost-Pathogen InteractionsInterferon Regulatory FactorsImmunologyPositive Regulatory Domain I-Binding Factor 1CD8T-Lymphocytes CytotoxicTranscription FactorsProceedings of the National Academy of Sciences
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EGF converts transit-amplifying neurogenic precursors in the adult brain into multipotent stem cells.

2002

AbstractNeural stem cells in the subventricular zone (SVZ) continue to generate new neurons in the adult brain. SVZ cells exposed to EGF in culture grow to form neurospheres that are multipotent and self-renewing. We show here that the majority of these EGF-responsive cells are not derived from relatively quiescent stem cells in vivo, but from the highly mitotic, Dlx2+, transit-amplifying C cells. When exposed to EGF, C cells downregulate Dlx2, arrest neuronal production, and become highly proliferative and invasive. Killing Dlx2+ cells dramatically reduces the in vivo response to EGF and neurosphere formation in vitro. Furthermore, purified C cells are 53-fold enriched for neurosphere gene…

Cellular differentiationNeuroscience(all)Mice TransgenicBiology03 medical and health sciencesMice0302 clinical medicineCell MovementNeurosphereSpheroids CellularAnimalsCell LineageCells Cultured030304 developmental biologyHomeodomain ProteinsNeurons0303 health sciencesEpidermal Growth FactorGeneral NeuroscienceStem CellsBrainCell DifferentiationImmunohistochemistryNeural stem cellCell biologyUp-RegulationNeuroepithelial cellEndothelial stem cellErbB ReceptorsMicroscopy ElectronPhenotypenervous systemMultipotent Stem CellAstrocytesStem cellNeuroscience030217 neurology & neurosurgeryCell DivisionAdult stem cellTranscription FactorsNeuron
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An essential switch in subunit composition of a chromatin remodeling complex during neural development.

2007

Summary Mammalian neural stem cells (NSCs) have the capacity to both self-renew and to generate all the neuronal and glial cell-types of the adult nervous system. Global chromatin changes accompany the transition from proliferating NSCs to committed neuronal lineages, but the mechanisms involved have been unclear. Using a proteomics approach, we show that a switch in subunit composition of neural, ATP-dependent SWI/SNF-like chromatin remodeling complexes accompanies this developmental transition. Proliferating neural stem and progenitor cells express complexes in which BAF45a, a Kruppel/PHD domain protein and the actin-related protein BAF53a are quantitatively associated with the SWI2/SNF2-…

Cellular differentiationProtein subunitNeuroscience(all)Molecular Sequence DataNeuroepithelial CellsDEVBIONerve Tissue ProteinsBiologyChromatin remodelingMOLNEUROEpigenesis Genetic03 medical and health sciencesMice0302 clinical medicineMultienzyme ComplexesAnimalsAmino Acid SequenceProgenitor cell030304 developmental biologyNeurons0303 health sciencesGeneral NeuroscienceMultipotent Stem CellsGene Expression Regulation DevelopmentalCell DifferentiationChromatin Assembly and DisassemblySTEMCELLNeural stem cellChromatinCell biologyNeuroepithelial cellProtein SubunitsNeural developmentNeuroglia030217 neurology & neurosurgeryTranscription FactorsNeuron
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A critical role for Cyclin E in cell fate determination in the central nervous system of Drosophila melanogaster

2004

We have examined the process by which cell diversity is generated in neuroblast (NB) lineages in the central nervous system of Drosophila melanogaster. Thoracic NB6-4 (NB6-4t) generates both neurons and glial cells, whereas NB6-4a generates only glial cells in abdominal segments. This is attributed to an asymmetric first division of NB6-4t, localizing prospero (pros) and glial cell missing (gcm) only to the glial precursor cell, and a symmetric division of NB6-4a, where both daughter cells express pros and gcm. Here we show that the NB6-4t lineage represents the ground state, which does not require the input of any homeotic gene, whereas the NB6-4a lineage is specified by the homeotic genes…

Central Nervous SystemCyclin ELineage (genetic)Cell divisionDown-RegulationNerve Tissue ProteinsCell fate determinationNeuroblastCyclin EAnimalsDrosophila ProteinsCell LineageHomeodomain ProteinsNeuronsbiologyStem CellsNeuropeptidesGenes HomeoboxGene Expression Regulation DevelopmentalNuclear ProteinsCell DifferentiationCell BiologyCell cyclebiology.organism_classificationGanglia InvertebrateCell biologyDNA-Binding ProteinsDrosophila melanogasterTrans-ActivatorsDrosophila melanogasterHomeotic geneNeurogliaTranscription FactorsNature Cell Biology
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Analysis of Drosophila salivary gland, epidermis and CNS development suggests an additional function of brinker in anterior-posterior cell fate speci…

2000

Salivary glands are simple structured organs which can serve as a model system in the study of organogenesis. Following a large EMS mutagenesis we have identified a number of genes required for normal salivary gland development. Mutations in the locus small salivary glands-1 (ssg-1) lead to a drastic reduction in the size of the salivary glands. The gene ssg-1 was cloned and subsequent sequence and genetic analysis showed identity to the recently published gene brinker. The salivary gland placode in brinker mutants appears reduced along both the anterior-posterior and dorso-ventral axis. Analysis of the brinker cuticle phenotype revealed a similar loss of anterior-posterior as well as later…

Central Nervous SystemEmbryologyReceptors SteroidEmbryo NonmammalianMutantLocus (genetics)OrganogenesisBiologyCell fate determinationSalivary GlandsNeuroblastBacterial ProteinsmedicineAnimalsDrosophila ProteinsAdhesins BacterialGeneBody PatterningEmbryonic InductionHomeodomain ProteinsSalivary glandGenetic Complementation TestNeuropeptidesChromosome MappingGene Expression Regulation DevelopmentalCell DifferentiationAnatomyPhenotypeCell biologyRepressor Proteinsmedicine.anatomical_structureEpidermal CellsMutationInsect ProteinsDrosophilaEpidermisDevelopmental BiologyTranscription FactorsMechanisms of development
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