Glia-neuron coupling via a bipartite sialylation pathway promotes neural transmission and stress tolerance in Drosophila
Scott H, Novikov B, Ugur B, Allen B, Mertsalov I, Monagas-Valentin P, Koff M, Robinson S, Aoki K, Veizaj R, Lefeber D, Tiemeyer M, Bellen H, Panin V. Glia-neuron coupling via a bipartite sialylation pathway promotes neural transmission and stress tolerance in Drosophila. ELife 2023, 12: e78280. PMID: 36946697, PMCID: PMC10110239, DOI: 10.7554/elife.78280.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsDrosophilaNervous System Physiological PhenomenaNeurogliaNeuronsPolysaccharidesSynaptic TransmissionConceptsSialylation pathwayCMP-sialic acid synthetaseStress toleranceAnimal developmentProtein functionVoltage-gated sodium channelsGlycan terminiNeural transmissionDedicated pathwaysGenesDifferent cellsPathwayOxidative stressSodium channelsSialic acidNervous systemNeural excitabilitySialylationToleranceNormal levelsNeural functionDrosophilaTerminusExcitabilitySynthetase