Search results for "Ultrabithorax"

showing 6 items of 6 documents

Impact of Ultrabithorax alternative splicing on Drosophila embryonic nervous system development.

2015

Hox genes control divergent segment identities along the anteroposterior body axis of bilateral animals by regulating a large number of processes in a cell context-specific manner. How Hox proteins achieve this functional diversity is a long-standing question in developmental biology. In this study we investigate the role of alternative splicing in functional specificity of the Drosophila Hox gene Ultrabithorax (Ubx). We focus specifically on the embryonic central nervous system (CNS) and provide a description of temporal expression patterns of three major Ubx isoforms during development of this tissue. These analyses imply distinct functions for individual isoforms in different stages of n…

Central Nervous SystemEmbryologyanimal structuresNeurogenesisGenes InsectBiologyCell fate determinationNeuroblastAnimalsDrosophila ProteinsProtein IsoformsHox geneUltrabithoraxGeneticsHomeodomain ProteinsAlternative splicingGenes HomeoboxGene Expression Regulation DevelopmentalCell biologyAlternative Splicingembryonic structuresRNA splicingDrosophilaNeural developmentDrosophila ProteinDevelopmental BiologyTranscription FactorsMechanisms of development
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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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Oligonucleotide probes detect splicing variants insituinDrosophilaembryos

1992

We describe a method for the in situ detection of specific splicing variants. The method is based on the use of antisense oligonucleotides designed to span splice junctions labelled with digoxigenin by terminal transferase tailing. We find that the spatial patterns of Ubx splicing variants Ia and IIa are similar in early embryos, but differ in late embryos. Variant IVa is only detected in the CNS (ps6) at stages 16 and 17. We also present evidence indicating that the first splicing event is cotranscriptional.

Messenger RNAanimal structuresBase SequenceTranscription GeneticOligonucleotideMolecular Sequence DataAlternative splicingExonic splicing enhancerOligonucleotides AntisenseBiologyMolecular biologyAlternative Splicingchemistry.chemical_compoundchemistryRNA splicingGeneticsAnimalsDigoxigeninDrosophilaspliceOligonucleotide ProbesDigoxigeninIn Situ HybridizationUltrabithoraxNucleic Acids Research
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The RNA-binding protein ELAV regulates Hox RNA processing, expression and function within the Drosophila nervous system

2014

The regulated head-to-tail expression of Hox genes provides a coordinate system for the activation of specific programmes of cell differentiation according to axial level. Recent work indicates that Hox expression can be regulated via RNA processing but the underlying mechanisms and biological significance of this form of regulation remain poorly understood. Here we explore these issues within the developing Drosophila central nervous system (CNS). We show that the pan-neural RNA-binding protein (RBP) ELAV (Hu antigen) regulates the RNA processing patterns of the Hox gene Ultrabithorax (Ubx) within the embryonic CNS. Using a combination of biochemical, genetic and imaging approaches we demo…

Embryo Nonmammaliananimal structuresNeurogenesisRNA-binding proteinCellular differentiationMolecular Sequence DataRNA-binding proteinBiologyAntennapediaNervous SystemMorphogenesisAnimalsDrosophila ProteinsRNA Processing Post-TranscriptionalELAV/HuHox geneMolecular BiologyTranscription factorPhylogenyResearch ArticlesUltrabithoraxHomeodomain ProteinsAlternative polyadenylation (APA)GeneticsBase SequenceAlternative splicingGenes HomeoboxGene Expression Regulation DevelopmentalSegment-specific apoptosisHoxCell biologyDrosophila melanogasterELAV ProteinsRNA processingCentral nervous systemembryonic structuresDrosophilaDrosophila ProteinTranscription FactorsAlternative splicingDevelopmental BiologyDevelopment
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Antagonistic roles for Ultrabithorax and Antennapedia in regulating segment-specific apoptosis of differentiated motoneurons in the Drosophila embryo…

2008

The generation of morphological diversity among segmental units of the nervous system is crucial for correct matching of neurons with their targets and for formation of functional neuromuscular networks. However, the mechanisms leading to segment diversity remain largely unknown. We report here that the Hox genes Ultrabithorax (Ubx) and Antennapedia (Antp) regulate segment-specific survival of differentiated motoneurons in the ventral nerve cord of Drosophilaembryos. We show that Ubx is required to activate segment-specific apoptosis in these cells, and that their survival depends on Antp. Expression of the Ubx protein is strongly upregulated in the motoneurons shortly before they undergo a…

Nervous systemCentral Nervous SystemProgrammed cell deathanimal structuresEmbryo NonmammalianApoptosisBiologyAntennapediaDownregulation and upregulationmedicineAnimalsDrosophila ProteinsHox geneMolecular BiologyUltrabithoraxGeneticsHomeodomain ProteinsGene Expression Regulation DevelopmentalCell DifferentiationEmbryonic stem cellCell biologymedicine.anatomical_structureVentral nerve cordembryonic structuresAntennapedia Homeodomain ProteinDrosophilaDevelopmental BiologyTranscription FactorsDevelopment (Cambridge, England)
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Stage, tissue, and cell specific distribution of alternative Ultrabithorax mRNAs and protein isoforms in the Drosophila embryo

1996

The homeotic gene Ultrabithorax encodes a family of six homeoproteins translated from alternatively spliced mRNAs. The structures of these UBX isoforms have been conserved among anciently diverged Drosoph-ila species and functional distinctions between some isoforms have been reported that suggest subtle but important roles in Ubx action. We present a detailed analysis of the expression patterns of Ubx mRNAs and proteins during embryogenesis, using isoform-specific monoclonal antibodies and synthetic oligonucleotide probes. These patterns are remarkably complex, each mRNA and corresponding protein isoform being expressed in a partially overlapping but distinct stage and tissue-specific patt…

GeneticsGene isoformProtein isoformMessenger RNAExonRNA splicingGeneticsIntronBiologyHomeotic geneUltrabithoraxDevelopmental BiologyRoux's Archives of Developmental Biology
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