Search results for "T-box"

showing 3 items of 43 documents

Optomotor-blind negatively regulates Drosophila eye development by blocking Jak/STAT signaling

2015

Organ formation requires a delicate balance of positive and negative regulators. In Drosophila eye development, wingless (wg) is expressed at the lateral margins of the eye disc and serves to block retinal development. The T-box gene optomotor-blind (omb) is expressed in a similar pattern and is regulated by Wg. Omb mediates part of Wg activity in blocking eye development. Omb exerts its function primarily by blocking cell proliferation. These effects occur predominantly in the ventral margin. Our results suggest that the primary effect of Omb is the blocking of Jak/STAT signaling by repressing transcription of upd which encodes the Jak receptor ligand Unpaired.

genetic structuresScienceNerve Tissue ProteinsEyeTranscription (biology)ddc:570AnimalsDrosophila ProteinsReceptorTranscription factorCell ProliferationJanus KinasesGeneticsMultidisciplinarybiologyCell growthQRbiology.organism_classificationCell biologySTAT Transcription FactorsDrosophila melanogasterEye developmentMedicineDrosophila melanogasterJanus kinaseT-Box Domain ProteinsDrosophila ProteinResearch ArticleTranscription Factors
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RUNX3 and T-Bet in Immunopathogenesis of Ankylosing Spondylitis—Novel Targets for Therapy?

2019

Susceptibility to ankylosing spondylitis (AS) is polygenic with more than 100 genes identified to date. These include HLA-B27 and the aminopeptidases (ERAP1, ERAP2, and LNPEPS), which are involved in antigen processing and presentation to T-cells, and several genes (IL23R, IL6R, STAT3, JAK2, IL1R1/2, IL12B, and IL7R) involved in IL23 driven pathways of inflammation. AS is also strongly associated with polymorphisms in two transcription factors, RUNX3 and T-bet (encoded by TBX21), which are important in T-cell development and function. The influence of these genes on the pathogenesis of AS and their potential for identifying drug targets is discussed here.

lcsh:Immunologic diseases. Allergy0301 basic medicineTBX21Mini ReviewImmunologyBiologyCD8-Positive T-Lymphocytesmedicine.disease_causeAminopeptidasesInterleukin-23Polymorphism Single NucleotideAutoimmunity03 medical and health sciences0302 clinical medicineankylosing spondylitisInterleukin 23medicineImmunology and AllergyHumansImmunologic FactorsSpondylitis AnkylosingMolecular Targeted TherapyInterleukin-7 receptorTranscription factorHLA-B27 AntigenAnkylosing spondylitistherapyAntigen processingautoimmunityReceptors Interleukinmedicine.disease3. Good healthKiller Cells Natural030104 developmental biologyCore Binding Factor Alpha 3 SubunitGene Expression RegulationinflammationImmunologylcsh:RC581-607T-Box Domain ProteinsFunctional genomicsfunctional genomics030215 immunologyFrontiers in Immunology
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Dpp signaling inhibits proliferation in the Drosophila wing by Omb-dependent regional control of bantam

2013

The control of organ growth is a fundamental aspect of animal development but remains poorly understood. The morphogen Dpp has long been considered as a general promoter of cell proliferation during Drosophila wing development. It is an ongoing debate whether the Dpp gradient is required for the uniform cell proliferation observed in the wing imaginal disc. Here, we investigated how the Dpp signaling pathway regulates proliferation during wing development. By systematic manipulation of Dpp signaling we observed that it controls proliferation in a region-specific manner: Dpp, via omb, promoted proliferation in the lateral and repressed proliferation in the medial wing disc. Omb controlled th…

medicine.medical_specialtyanimal structuresMicroRNA GeneNerve Tissue ProteinsBiologyTranscription (biology)Internal medicinemedicineAnimalsDrosophila ProteinsWings AnimalMolecular BiologyDpp signaling pathwayBody PatterningCell ProliferationWingCell growthAnimal developmentCell biologyMicroRNAsImaginal discEndocrinologyDrosophilaT-Box Domain ProteinsSignal TransductionDevelopmental BiologyMorphogenDevelopment
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