Search results for "Embryonic Structure"

showing 10 items of 624 documents

The Drosophila Hox gene Ultrabithorax acts both in muscles and motoneurons to orchestrate formation of specific neuromuscular connections

2016

Hox genes are known to specify motoneuron pools in the developing vertebrate spinal cord and to control motoneuronal targeting in several species. However, the mechanisms controlling axial diversification of muscle innervation patterns are still largely unknown. We present data showing that the Drosophila Hox gene Ultrabithorax (Ubx) acts in the late embryo to establish target specificity of ventrally projecting RP motoneurons. In abdominal segments A2 to A7, RP motoneurons innervate the ventrolateral muscles VL1-4, with VL1 and VL2 being innervated in a Wnt4-dependent manner. In Ubx mutants, these motoneurons fail to make correct contacts with muscle VL1, a phenotype partially resembling t…

0301 basic medicineCell typeEmbryo Nonmammaliananimal structuresNeuromuscular JunctionGenes InsectMuscle DevelopmentNeuromuscular junctionAnimals Genetically ModifiedHox genes03 medical and health sciencesWNT4MorphogenesismedicineAnimalsDrosophila ProteinsHox geneWnt Signaling PathwayMolecular BiologyTranscription factorUltrabithoraxHomeodomain ProteinsMotor NeuronsGeneticsbiologyMusclesmusculoskeletal neural and ocular physiologyfungiGenes HomeoboxGene Expression Regulation Developmentalbiology.organism_classificationMuscle innervationSegmental patterningCell biologyMotoneuronsDrosophila melanogaster030104 developmental biologymedicine.anatomical_structurenervous system209embryonic structuresDrosophilaWnt signalling pathwayDrosophila melanogasterDrosophila ProteinTranscription FactorsResearch ArticleDevelopmental BiologyDevelopment
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Tangential Intrahypothalamic Migration of the Mouse Ventral Premamillary Nucleus and Fgf8 Signaling

2021

The tuberal hypothalamic ventral premamillary nucleus (VPM) described in mammals links olfactory and metabolic cues with mating behavior and is involved in the onset of puberty. We offer here descriptive and experimental evidence on a migratory phase in the development of this structure in mice at E12.5–E13.5. Its cells originate at the retromamillary area (RM) and then migrate tangentially rostralward, eschewing the mamillary body, and crossing the molecularly distinct perimamillary band, until they reach a definitive relatively superficial ventral tuberal location. Corroborating recent transcriptomic studies reporting a variety of adult glutamatergic cell types in the VPM, and different p…

0301 basic medicineCell typeQH301-705.5organotypic culturesBiologyFgf8Cell and Developmental Biologydorsal premamillary nucleus (DPM)03 medical and health sciencesGlutamatergic0302 clinical medicineFGF8neuronal tangential migrationmedicinehypothalamusBiology (General)Original ResearchEmbryoCell BiologyMamillary Bodyventral premamillary nucleus (VPM)retromamillary area (RM)Subthalamic nucleus030104 developmental biologymedicine.anatomical_structureHypothalamusembryonic structuresperimamillary bandNeuroscienceNucleus030217 neurology & neurosurgeryDevelopmental BiologyFrontiers in Cell and Developmental Biology
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Differentiation and characterization of rat adipose tissue mesenchymal stem cells into endothelial-like cells

2018

In this study, mesenchymal stem cells were isolated from rat adipose tissue (AD-MSCs) to characterize and differentiate them into endothelial-like cells. AD-MSCs were isolated by mechanical and enzymatic treatments, and their identity was verified by colony-forming units (CFU) test and by differentiation into cells of mesodermal lineages. The endothelial differentiation was induced by plating another aliquot of cells in EGM-2 medium, enriched with specific endothelial growth factors. Five subcultures were performed. The expression of stemness genes (OCT4, SOX2 and NANOG) was investigated. The presence of CD90 and the absence of the CD45 were evaluated by flow cytometry. The endothelial-like…

0301 basic medicineCellular differentiationSettore VET/09 - Clinica Chirurgica VeterinariaSettore BIO/13 - Biologia Applicataimmunophenotypical analysiCell DifferentiationNanog Homeobox ProteinGeneral MedicineCadherinsFlow CytometryUp-RegulationPlatelet Endothelial Cell Adhesion Molecule-1Endothelial stem cellDrug CombinationsAdipose Tissueembryonic structuresVeterinary (all)ProteoglycansCollagenStem cellHomeobox protein NANOGadipose-derived mesenchymal stem cellDown-RegulationCD146 AntigenBiology03 medical and health sciencesMatrigel assaySOX2Antigens CDAdipose-derived mesenchymal stem cellsAnimalsEndothelial cells differentiationRats WistarImmunophenotypical analysisMatrigelGeneral VeterinaryGene Expression ProfilingSOXB1 Transcription FactorsMesenchymal stem cellEndothelial CellsMesenchymal Stem Cells3T3-L1Molecular biologyAdipose-derived mesenchymal stem cells; Endothelial cells differentiation; Gene expression; Immunophenotypical analysis; Matrigel assay; Rat; Veterinary (all)Culture MediaRats030104 developmental biologyadipose-derived mesenchymal stem cells; endothelial cells differentiation; gene expression; immunophenotypical analysis; matrigel assay; ratLeukocyte Common AntigensThy-1 AntigensRatLamininGene expressionOctamer Transcription Factor-3
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Cell-Autonomous and Non-cell-autonomous Function of Hox Genes Specify Segmental Neuroblast Identity in the Gnathal Region of the Embryonic CNS in Dro…

2016

During central nervous system (CNS) development neural stem cells (Neuroblasts, NBs) have to acquire an identity appropriate to their location. In thoracic and abdominal segments of Drosophila, the expression pattern of Bithorax-Complex Hox genes is known to specify the segmental identity of NBs prior to their delamination from the neuroectoderm. Compared to the thoracic, ground state segmental units in the head region are derived to different degrees, and the precise mechanism of segmental specification of NBs in this region is still unclear. We identified and characterized a set of serially homologous NB-lineages in the gnathal segments and used one of them (NB6-4 lineage) as a model to i…

0301 basic medicineCentral Nervous SystemCancer ResearchEmbryologyGene ExpressionNervous SystemNeural Stem CellsAnimal CellsMedicine and Health SciencesDrosophila ProteinsHox geneGenetics (clinical)Regulation of gene expressionGeneticsNeuronsMembrane GlycoproteinsDrosophila MelanogasterGene Expression Regulation DevelopmentalAnimal ModelsProtein-Tyrosine KinasesNeural stem cellCell biologyInsectsPhenotypesembryonic structuresDrosophilaDrosophila melanogasterAnatomyCellular Structures and OrganellesCellular TypesResearch Articleanimal structuresArthropodalcsh:QH426-470ImmunoglobulinsBiologyAntennapediaResearch and Analysis Methods03 medical and health sciencesModel OrganismsNeuroblastNuclear BodiesCyclin EGeneticsAnimalsGene RegulationCell LineageMolecular BiologyEcology Evolution Behavior and SystematicsLoss functionCell NucleusHomeodomain ProteinsNeuroectodermEmbryosOrganismsBiology and Life SciencesCell Biologybiology.organism_classificationInvertebrateslcsh:Genetics030104 developmental biologyCellular NeuroscienceDevelopmental BiologyNeurosciencePLoS Genetics
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Gene expression profiles uncover individual identities of gnathal neuroblasts and serial homologies in the embryonic CNS of Drosophila.

2015

The numbers and types of progeny cells generated by neural stem cells in the developing CNS are adapted to its region-specific functional requirements. In Drosophila, segmental units of the CNS develop from well-defined patterns of neuroblasts. Here we constructed comprehensive neuroblast maps for the three gnathal head segments. Based on the spatiotemporal pattern of neuroblast formation and the expression profiles of 46 marker genes (41 transcription factors), each neuroblast can be uniquely identified. Compared with the thoracic ground state, neuroblast numbers are progressively reduced in labial, maxillary and mandibular segments due to smaller sizes of neuroectodermal anlagen and, part…

0301 basic medicineCentral Nervous SystemGenetic Markersanimal structuresSerial homologyCell CountGenes InsectBiology03 medical and health sciences0302 clinical medicineNeuroblastNeural Stem CellsNeuroblastsAbdomenAnimalsCell LineageHox geneMolecular Biologyreproductive and urinary physiologyfungiAnatomyThoraxGene expression profileNeuromereStem Cells and RegenerationEmbryonic stem cellNeural stem cellCell biology103Segmental patterning030104 developmental biologyDrosophila melanogasternervous systemVentral nerve cordDrosophila brainembryonic structuresDeformedTranscriptomeGanglion mother cell030217 neurology & neurosurgeryDevelopmental BiologyDevelopment (Cambridge, England)
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Transcriptome of early embryonic invasion at implantation sites in a murine model

2015

Successful implantation relies on the interaction between a competent embryo and a receptive endometrium. The aim of the present study was to investigate genes differentially expressed in early invasive embryonic tissue versus decidual tissue in mice. Samples were obtained from the ectoplacental cone, the immediately surrounding deciduas and from deciduas from interimplantation sites. Microarray analysis showed that 817 genes were differentially expressed between extra-embryonic tissue and the surrounding decidua and that 360 genes were differentially expressed between the different deciduas, with a high representation of developmental processes. Genes differentially expressed in the matern…

0301 basic medicineDECIDUAL TISSUEECTOPLACENTAL CONEOtras Ciencias BiológicasReproductive technologyBiologyMOUSE IMPLANTATIONTROPHOBLAST INVASIONCiencias BiológicasTranscriptome03 medical and health sciences0302 clinical medicineEndocrinologyMICROARRAYGeneticsmedicineCompartment (development)Molecular Biology030219 obstetrics & reproductive medicineMicroarray analysis techniquesDeciduaEmbryogenesisEmbryonic TissueEmbryonic stem cellCell biology030104 developmental biologymedicine.anatomical_structureRNA EXPRESSION PATTERNSReproductive Medicineembryonic structuresImmunologyAnimal Science and ZoologyCIENCIAS NATURALES Y EXACTASDevelopmental BiologyBiotechnologyReproduction, Fertility and Development
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An Intronic cis-Regulatory Element Is Crucial for the Alpha Tubulin Pl-Tuba1a Gene Activation in the Ciliary Band and Animal Pole Neurogenic Domains …

2017

In sea urchin development, structures derived from neurogenic territory control the swimming and feeding responses of the pluteus as well as the process of metamorphosis. We have previously isolated an alpha tubulin family member of Paracentrotus lividus (Pl-Tuba1a, formerly known as Pl-Talpha2) that is specifically expressed in the ciliary band and animal pole neurogenic domains of the sea urchin embryo. In order to identify cis-regulatory elements controlling its spatio-temporal expression, we conducted gene transfer experiments, transgene deletions and site specific mutagenesis. Thus, a genomic region of about 2.6 Kb of Pl-Tuba1a, containing four Interspecifically Conserved Regions (ICRs…

0301 basic medicineEmbryologyPolarity in embryogenesislcsh:MedicineGene ExpressionMedicine (all); Biochemistry Genetics and Molecular Biology (all); Agricultural and Biological Sciences (all)medicine.disease_causeBiochemistryTubulinGene expressionElectron MicroscopyTransgeneslcsh:SciencePromoter Regions GeneticSea urchinConserved SequenceSequence DeletionGeneticsRegulation of gene expressionMicroscopyMutationMultidisciplinaryMedicine (all)Gene Expression Regulation DevelopmentalGenomicsAnimal ModelsTATA BoxEnzymesEnhancer Elements GeneticExperimental Organism Systemsembryonic structuresParacentrotusTranscription Initiation SiteOxidoreductasesLuciferaseResearch ArticleEchinodermsTranscriptional ActivationImaging TechniquesNeurogenesisGreen Fluorescent ProteinsEmbryonic DevelopmentSettore BIO/11 - Biologia MolecolareBiologyResearch and Analysis MethodsGenome ComplexityParacentrotus lividus03 medical and health sciencesSpecies SpecificityTubulinsbiology.animalFluorescence ImagingGeneticsmedicineConsensus sequenceAnimalsCiliaEnhancerBiochemistry Genetics and Molecular Biology (all)Binding SitesModels Geneticlcsh:REmbryosOrganismsBiology and Life SciencesComputational BiologyProteinsbiology.organism_classificationInvertebratesIntronsCytoskeletal Proteins030104 developmental biologyAgricultural and Biological Sciences (all)Bright Field ImagingSea UrchinsEnzymologyMutagenesis Site-Directedlcsh:QTransmission Electron MicroscopyDevelopmental BiologyTranscription FactorsPLOS ONE
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Microparticles harbouring Sonic hedgehog morphogen improve the vasculogenesis capacity of endothelial progenitor cells derived from myocardial infarc…

2019

Aims Endothelial progenitor cells (EPC) play a role in endothelium integrity maintenance and regeneration. Decreased numbers of EPC or their impaired function correlates with an increase in cardiovascular events. Thus, EPC are important predictors of cardiovascular mortality and morbidity. Microparticles carrying Sonic hedgehog (Shh) morphogen (MPShh+) trigger pro-angiogenic responses, both in endothelial cells and in ischaemic rodent models. Here, we propose that MPShh+ regulates EPC function, thus enhancing vasculogenesis, and correcting the defects in dysfunctional EPC obtained from acute myocardial infarction (AMI) patients. Methods and results The mechanisms underlying Shh pathway func…

0301 basic medicineEndotheliumNitric Oxide Synthase Type IIIPhysiologyAngiogenesis[SDV]Life Sciences [q-bio]Myocardial InfarctionMice NudeNeovascularization PhysiologicAcute myocardial infarction030204 cardiovascular system & hematologyMicroparticlesZinc Finger Protein GLI103 medical and health sciences0302 clinical medicineVasculogenesisCell-Derived MicroparticlesPhysiology (medical)Paracrine CommunicationVasculogenesismedicineAnimalsHumansHedgehog ProteinsProgenitor cellSonic hedgehogAngiogenic ProteinsCells CulturedComputingMilieux_MISCELLANEOUSEndothelial progenitor cellsbiologybusiness.industryNitric oxideSmoothened ReceptorHedgehog signaling pathwayPatched-1 ReceptorVascular endothelial growth factor A030104 developmental biologymedicine.anatomical_structureCase-Control StudiesKLF2embryonic structuresCancer researchbiology.proteincardiovascular systemCardiology and Cardiovascular MedicinebusinessSignal Transductioncirculatory and respiratory physiology
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Upgrading from iMac to iMicro

2017

In this issue of Immunity, Takata et al. (2017) describe a novel method to differentiate macrophages from iPSCs. These cells, which they call iMacs, are similar to yolk-sac-derived macrophages and are capable of undergoing terminal differentiation into tissue-resident-like macrophages in vitro and in vivo.

0301 basic medicineFetusMacrophagesCellular differentiationImmunologyCell DifferentiationBiologyCell biology03 medical and health sciencesFetus030104 developmental biologyInfectious Diseasesmedicine.anatomical_structureImmunityembryonic structuresImmunologymedicineHumansImmunology and AllergyYolk sacInduced pluripotent stem cellYolk SacImmunity
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Comparison of environmental risk factors for esophageal atresia, anorectal malformations, and the combined phenotype in 263 German families

2015

Esophageal atresia with or without tracheoesophageal fistula (EA/TEF) and anorectal malformations (ARM) represent the severe ends of the fore- and hindgut malformation spectra. Previous research suggests that environmental factors are implicated in their etiology. These risk factors might indicate the influence of specific etiological mechanisms on distinct developmental processes (e.g. fore- vs. hindgut malformation). The present study compared environmental factors in patients with isolated EA/TEF, isolated ARM, and the combined phenotype during the periconceptional period and the first trimester of pregnancy in order to investigate the hypothesis that fore- and hindgut malformations invo…

0301 basic medicineFetusPregnancyPediatricsmedicine.medical_specialtybusiness.industryBirth weightGastroenterologyPhysiologyTracheoesophageal fistulaContext (language use)General Medicine030105 genetics & hereditymedicine.disease03 medical and health sciencesAtresiaembryonic structuresmedicineEtiologyRisk factorbusinessDiseases of the Esophagus
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