Search results for "EXPRESSION"

showing 10 items of 5168 documents

Gatekeeper of pluripotency: A common Oct4 transcriptional network operates in mouse eggs and embryonic stem cells

2011

Abstract Background Oct4 is a key factor of an expanded transcriptional network (Oct4-TN) that governs pluripotency and self-renewal in embryonic stem cells (ESCs) and in the inner cell mass from which ESCs are derived. A pending question is whether the establishment of the Oct4-TN initiates during oogenesis or after fertilisation. To this regard, recent evidence has shown that Oct4 controls a poorly known Oct4-TN central to the acquisition of the mouse egg developmental competence. The aim of this study was to investigate the identity and extension of this maternal Oct4-TN, as much as whether its presence is circumscribed to the egg or maintained beyond fertilisation. Results By comparing …

Octamer Transcription Factor-3lcsh:QH426-470lcsh:BiotechnologycellsGene regulatory networkDown-RegulationBiologyTranscriptomeMicelcsh:TP248.13-248.65GeneticsInner cell massAnimalsGene Regulatory NetworksEmbryonic Stem Cellsreproductive and urinary physiologyOligonucleotide Array Sequence AnalysisGeneticsGene Expression ProfilingfungiEmbryoEmbryonic stem cellGene expression profilinglcsh:GeneticsMultigene FamilyCancer cellembryonic structuresOocytesFemalebiological phenomena cell phenomena and immunityFunction and Dysfunction of the Nervous SystemOctamer Transcription Factor-3Research ArticleBiotechnologyBMC Genomics
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Baculovirus infection affects caterpillar chemoperception

2021

International audience; Baculoviruses are double-stranded DNA entomopathogenic viruses that infect predominantly insects of the order Lepidoptera. Research in the last decade has started to disentangle the mechanisms underlying the insect-virus interaction, particularly focusing on the effects of the baculovirus infection in the host's physiology. Among crucial physiological functions, olfaction has a key role in reproductive tasks, food source detection and enemy avoidance. In this work, we describe that Spodoptera exigua multiple nucleopolyhedrovirus (SeMNPV) induces expression changes in some odorant receptors (ORs)-the centrepiece of insect's olfaction-when infecting larvae from its nat…

OlfactionSpodopteraSpodopteraReceptors OdorantBiochemistryLepidoptera genitalia03 medical and health sciences0302 clinical medicineExiguaAnimalsBehaviour[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyBaculovirusMolecular Biology030304 developmental biologyNeuronsGenetics0303 health sciencesbiologyOdorant receptorsHost (biology)fungibiology.organism_classificationOlfactionNucleopolyhedrovirusesBeet armywormDrosophila melanogasterLarvaInsect ScienceInsect ProteinsNoctuidaeCaterpillarHeterologous expressionDrosophila melanogaster030217 neurology & neurosurgeryInsect Biochemistry and Molecular Biology
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Expression of Odorant Receptor Family, Type 2 OR in the Aquatic Olfactory Cavity of Amphibian Frog Xenopus tropicalis

2012

International audience; Recent genome wide in silico analyses discovered a new family (type 2 or family H) of odorant receptors (ORs) in teleost fish and frogs. However, since there is no evidence of the expression of these novel OR genes in olfactory sensory neurons (OSN), it remains unknown if type 2 ORs (OR2) function as odorant receptors. In this study, we examined expression of OR2 genes in the frog Xenopus tropicalis. The overall gene expression pattern is highly complex and differs depending on the gene and developmental stage. RT-PCR analysis in larvae showed that all of the OR2η genes we identified were expressed in the peripheral olfactory system and some were detected in the brai…

Olfactory systemAmphibian[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionXenopusXenopuslcsh:MedicineIn situ hybridizationOlfactionNoseBiologyReceptors OdorantModel Organismsbiology.animalGene expressionAnimalslcsh:ScienceReceptorBiologyGeneIn Situ HybridizationOlfactory SystemGenomeMultidisciplinarylcsh:RGene Expression Regulation DevelopmentalAnimal ModelsAnatomybiology.organism_classificationSensory SystemsCell biologySmellLarvaSensory Perceptionlcsh:Q[SDV.AEN]Life Sciences [q-bio]/Food and NutritionResearch ArticleNeurosciencePLoS ONE
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UDP-glucuronosyltransferases (UGTs) in neuro-olfactory tissues: expression, regulation, and function.

2010

International audience; This work aims to review uridine diphosphate (UDP)-glucuronosyltransferase (UGT) expression and activities along different neuronal structures involved in the common physiological process of olfaction: olfactory epithelium, olfactory bulb, and olfactory cortex. For the first time, using high-throughput in situ hybridization data generated by the Allen Brain Atlas (ABA), we present quantitative analysis of spatial distribution of UGT genes in the mouse brain. The olfactory area is a central nervous system site with the highest expression of UGTs, including UGT isoforms not previously identified in the brain. Since there is evidence of the transfer of xenobiotics to th…

Olfactory systemMESH : RNA Messenger[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionMESH: GlucuronosyltransferaseMESH : Blood-Brain BarrierMESH: Blood-Brain Barrierchemistry.chemical_compound0302 clinical medicineMESH: SmellPharmacology (medical)MESH: AnimalsMESH: Uridine DiphosphateMESH: Nerve Tissue ProteinsGlucuronosyltransferaseGeneral Pharmacology Toxicology and PharmaceuticsMESH : Olfactory BulbMESH : Nerve Tissue Proteins0303 health sciencesMESH: Gene Expression Regulation EnzymologicOlfactory PathwaysOlfactory BulbMESH : OdorsCell biologySmellmedicine.anatomical_structureBlood-Brain BarrierMESH: Olfactory Bulbmedicine.medical_specialtyCentral nervous systemNerve Tissue ProteinsIn situ hybridizationOlfactionBiologydigestive systemGene Expression Regulation EnzymologicOlfactory Receptor NeuronsUridine DiphosphateMESH : Gene Expression Regulation Enzymologic03 medical and health sciencesInternal medicinemedicineAnimalsRNA MessengerMESH : Uridine Diphosphate030304 developmental biologyMESH: RNA MessengerMESH: OdorsMESH : Olfactory PathwaysMESH : GlucuronosyltransferaseMESH: Olfactory Receptor NeuronsOlfactory bulbUridine diphosphateEndocrinologychemistryOdorantsMESH : SmellMESH : Olfactory Receptor NeuronsMESH : AnimalsOlfactory epithelium[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition030217 neurology & neurosurgeryFunction (biology)MESH: Olfactory Pathways
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Rat olfactory bulb and epithelium UDP-glucuronosyltransferase 2A1 (UGT2A1) expression: in situ mRNA localization and quantitative analysis.

2001

UDP-glucuronosyltransferases (UGTs) form a multigenic family of enzymes involved in the biotransformation and elimination of numerous endo- and xenobiotic compounds. Beside the diverse UGT isoforms present in the liver as well as in other tissues, the UGT2A1 isoform, also called olfactory UGT, was initially thought to be expressed in the nasal epithelium only. In this work, we demonstrate the UGT2A1 mRNA expression in the olfactory bulb, using in situ hybridization and quantitative reverse transcription-polymerase chain reaction (RT-PCR) techniques. Within the epithelium, UGT2A1 mRNA is mainly found in the sustentacular cells and to a lesser extent in Bowman's gland cells. Moreover, in situ…

Olfactory systemMaleCentral nervous systemNerve Tissue ProteinsIn situ hybridizationBiologyCellular and Molecular NeuroscienceMiceRapid amplification of cDNA endsOlfactory MucosaGene expressionmedicineAnimalsNeurons AfferentRNA MessengerGlucuronosyltransferaseRats WistarMolecular BiologyIn Situ HybridizationAir PollutantsMice Inbred BALB CSequence Homology Amino AcidReverse Transcriptase Polymerase Chain ReactionEpithelial CellsMolecular biologyOlfactory BulbEpitheliumOlfactory bulbRatsIsoenzymesmedicine.anatomical_structureInactivation MetabolicOlfactory epitheliumBrain research. Molecular brain research
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Perforated Patch-clamp Recording of Mouse Olfactory Sensory Neurons in Intact Neuroepithelium: Functional Analysis of Neurons Expressing an Identifie…

2015

Analyzing the physiological responses of olfactory sensory neurons (OSN) when stimulated with specific ligands is critical to understand the basis of olfactory-driven behaviors and their modulation. These coding properties depend heavily on the initial interaction between odor molecules and the olfactory receptor (OR) expressed in the OSNs. The identity, specificity and ligand spectrum of the expressed OR are critical. The probability to find the ligand of the OR expressed in an OSN chosen randomly within the epithelium is very low. To address this challenge, this protocol uses genetically tagged mice expressing the fluorescent protein GFP under the control of the promoter of defined ORs. O…

Olfactory systemPatch-Clamp TechniquesGeneral Chemical EngineeringGene ExpressionSensory systemMice TransgenicBiology[ SDV.BA ] Life Sciences [q-bio]/Animal biologyReceptors OdorantGeneral Biochemistry Genetics and Molecular BiologyOlfactory Receptor Neurons03 medical and health sciencesOlfactory mucosaMice0302 clinical medicineOlfactory Mucosaolfactory sensory neuronsGenes ReportermedicineAnimalsPatch clampissue 101030304 developmental biology0303 health sciencesOlfactory receptorGeneral Immunology and MicrobiologyGeneral Neuroscience[SDV.BA]Life Sciences [q-bio]/Animal biologygene-targeted mouserespiratory systemelectrophysiologytransductionperforated patch-clampEpitheliumSmellmedicine.anatomical_structure[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Odorants[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]sense organspharmacologyNeuroscienceTransduction (physiology)Olfactory epithelium030217 neurology & neurosurgeryNeuroscienceJournal of visualized experiments : JoVE
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Postnatal odorant exposure induces peripheral olfactory plasticity at the cellular level

2014

Mammalian olfactory sensory neurons (OSNs) form the primary elements of the olfactory system. Inserted in the olfactory mucosa lining of the nasal cavity, they are exposed to the environment and their lifespan is brief. Several reports say that OSNs are regularly regenerated during the entire life and that odorant environment affects the olfactory epithelium. However, little is known about the impact of the odorant environment on OSNs at the cellular level and more precisely in the context of early postnatal olfactory exposure. Here we exposed MOR23-green fluorescent protein (GFP) and M71-GFP mice to lyral or acetophenone, ligands for MOR23 or M71, respectively. Daily postnatal exposure to …

Olfactory systemPatch-Clamp TechniquessourisReceptors Odorant[ SDV.BA ] Life Sciences [q-bio]/Animal biologybiologie neurosensorielleMembrane Potentials0302 clinical medicinemolecular biology[SDV.BDD]Life Sciences [q-bio]/Development BiologydéveloppementAnimal biology0303 health scienceseducation.field_of_studyNeuronal PlasticityGeneral Neuroscience[SDV.BA]Life Sciences [q-bio]/Animal biologyBiologie du développementArticlesOlfactory BulbDevelopment BiologySmellmedicine.anatomical_structureélectrophysiologie[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]development;développement;electrophysiology;électrophysiologie;mice;souris;molecular biology;biologie moléculaire;olfaction;plasticity;plasticiténeurone récepteur olfactifolfactionmiceGreen Fluorescent ProteinsPopulationMice Transgenicneurone olfactifSensory systemOlfactionBiologybiologie moléculaireOlfactory Receptor Neurons03 medical and health sciencesOlfactory mucosaBiologie animalemedicineAnimalsOlfactory Transduction Pathway[ SDV.BDD ] Life Sciences [q-bio]/Development Biologyeducationdevelopment030304 developmental biologyOlfactory receptorplasticitéNeuroscienceselectrophysiologyElectrooculographyAnimals NewbornGene Expression RegulationNeurons and Cognitionplasticity[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]OdorantsNeuroscienceOlfactory epithelium030217 neurology & neurosurgery
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Apulian olive sapwood endophytes to cope with Xylella fastidiosa: community analysis, antagonists screening, colonization efficiency, and genes expre…

2021

This dissertation comprises a series of studies aimed at exploring the cultivable endophytic communities indigenous to the sapwood of Apulian olive cultivars, identifying potential antagonists against Xylella fastidiosa, pauca ST53, and demonstrating their colonization efficiency and associated effects on olive defence-related genes. This work starts with an extensive analysis of cultivable sapwood endophytes from resistant and susceptible cultivars distributed across phytosanitary zones in Apulia. After multiple isolation of endophyte colonies, the results were translated into quantitative indicators. It was found that the resistant cultivar 'Leccino' showed high stability and diversity of…

Olive Endophytes Diversity Xylella fastidiosa Antagonists Colonization Genes expressionSettore AGR/12 - Patologia Vegetale
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Metabolic differences between a wild and a wine strain of Saccharomyces cerevisiae during fermentation unveiled by multi‐omic analysis

2021

Saccharomyces cerevisiae, a widespread yeast present both in the wild and in fermentative processes, like winemaking. During the colonization of these human‐associated fermentative environments, certain strains of S. cerevisiae acquired differential adaptive traits that enhanced their physiological properties to cope with the challenges imposed by these new ecological niches. The advent of omics technologies allowed unveiling some details of the molecular bases responsible for the peculiar traits of S. cerevisiae wine strains. However, the metabolic diversity within yeasts remained poorly explored, in particular that existing between wine and wild strains of S. cerevisiae. For this purpose,…

Omics technologiesSaccharomyces cerevisiaeWineSaccharomyces cerevisiaeMicrobiologyTranscriptome03 medical and health sciencesMetabolomicsYeastsHumansMetabolomicsGeneEcology Evolution Behavior and Systematics030304 developmental biologyWinemakingGeneticsWine0303 health sciencesbiology030306 microbiologyfood and beveragesbiology.organism_classificationMetabolic pathwayPhenotypeMetabolismFermentationFermentationGene expression
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Nemo regulates cell dynamics and represses the expression of miple, a midkine/pleiotrophin cytokine, during ommatidial rotation

2013

AbstractOmmatidial rotation is one of the most important events for correct patterning of the Drosophila eye. Although several signaling pathways are involved in this process, few genes have been shown to specifically affect it. One of them is nemo (nmo), which encodes a MAP-like protein kinase that regulates the rate of rotation throughout the entire process, and serves as a link between core planar cell polarity (PCP) factors and the E-cadherin–β-catenin complex. To determine more precisely the role of nmo in ommatidial rotation, live-imaging analyses in nmo mutant and wild-type early pupal eye discs were performed. We demonstrate that ommatidial rotation is not a continuous process, and …

Ommatidial rotationRotationCellMutantEyePleiotrophinModels BiologicalArticleImaging Three-DimensionalmedicineAnimalsDrosophila ProteinsMipleProtein kinase AMolecular BiologyGenetic Association Studiesbeta CateninBody PatterningMidkineLive-imagingbiologyGene Expression ProfilingMidkineGene Expression Regulation DevelopmentalCell BiologyCadherinsPhenotypeMolecular biologyCell biologyDrosophila melanogasterPhenotypemedicine.anatomical_structureImaginal DiscsNemoMutationbiology.proteinCytokinesDrosophila eyeFemaleGene expressionMitogen-Activated Protein KinasesSignal transductionOmmatidial rotationDevelopmental BiologyDevelopmental Biology
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