Divergent evolution of sleep in Drosophila species.Joyce M., Falconio F.A., Blackhurst L., Prieto-Godino L., French A.S., Gilestro G.F.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCNat Commun 15:5091-5091 (2024)Mapped to49
Presynaptic regulators in memory formation.Turrel O., Gao L., Sigrist S.J.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCLearn Mem 31:a054013-a054013 (2024)Mapped to35
Synaptic defects in a drosophila model of muscular dystrophy.Sidisky J.M., Winters A., Caratenuto R., Babcock D.T.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCFront Cell Neurosci 18:1381112-1381112 (2024)Mapped to27
Cell adhesion and actin dynamics factors promote axonal extension and synapse formation in transplanted Drosophila photoreceptor cells.Iwanaga R., Yahagi N., Hakeda-Suzuki S., Suzuki T.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCDev Growth Differ 66:205-218 (2024)Mapped to25
Lead exposure induced transgenerational developmental neurotoxicity by altering genome methylation in Drosophila melanogaster.Wu C., Wang J., Luo X., Wang B., Zhang X., Song Y., Zhang K., Zhang X., Sun M.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCEcotoxicol Environ Saf 271:115991-115991 (2024)Mapped to41
Failure to mate enhances investment in behaviors that may promote mating reward and impairs the ability to cope with stressors via a subpopulation of Neuropeptide F receptor neurons.Ryvkin J., Omesi L., Kim Y.K., Levi M., Pozeilov H., Barak-Buchris L., Agranovich B., Abramovich I., Gottlieb E.[...], Shohat-Ophir G.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCPLoS Genet 20:e1011054-e1011054 (2024)Mapped to33
Notch signaling and Bsh homeodomain activity are integrated to diversify <i>Drosophila</i> lamina neuron types.Xu C., Ramos T.B., Marshall O.J., Doe C.Q.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCElife 12:RP90136-RP90136 (2024)Mapped to27
Neurexin-1-dependent circuit activity is required for the maintenance of photoreceptor subtype identity in Drosophila.Lim-Kian-Siang G., Izawa-Ishiguro A.R., Rao Y.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCMol Brain 17:2-2 (2024)Mapped to27
Biology of cognitive aging across species.Kakizawa S., Park J.J., Tonoki A.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCGeriatr Gerontol Int 24 Suppl 1:15-24 (2024)Mapped to43
Akaluc/AkaLumine bioluminescence system enables highly sensitive, non- invasive and temporal monitoring of gene expression in Drosophila.Ito A., Matsuda N., Ukita Y., Okumura M., Chihara T.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCCommun Biol 6:1270-1270 (2023)Mapped to20
SynLight: a bicistronic strategy for simultaneous active zone and cell labeling in the Drosophila nervous system.Aimino M.A., Humenik J., Parisi M.J., Duhart J.C., Mosca T.J.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCG3 (Bethesda) 13:jkad221-jkad221 (2023)Mapped to10
A subset of cholinergic mushroom body neurons blocks long-term memory formation in Drosophila.Chen C.C., Lin H.W., Feng K.L., Tseng D.W., de Belle J.S., Chiang A.S.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCCell Rep 42:112974-112974 (2023)Mapped to27
Effects of adenosine receptor overexpression and silencing in neurons and glial cells on lifespan, fitness, and sleep of Drosophila melanogaster.Bhattacharya D., Gorska-Andrzejak J., Abaquita T.A.L., Pyza E.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCExp Brain Res 241:1887-1904 (2023)Mapped to11
Early Draper-mediated glial refinement of neuropil architecture and synapse number in the Drosophila antennal lobe.Jindal D.A., Leier H.C., Salazar G., Foden A.J., Seitz E.A., Wilkov A.J., Coutinho-Budd J.C., Broihier H.T.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCFront Cell Neurosci 17:1166199-1166199 (2023)Mapped to14
A conditional strategy for cell-type-specific labeling of endogenous excitatory synapses in <i>Drosophila</i>.Parisi M.J., Aimino M.A., Mosca T.J.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCCell Rep Methods 3:100477-100477 (2023)Mapped to28
Rab11 rescues muscle degeneration and synaptic morphology in the park<sup>13</sup>/+ Parkinson model of Drosophila melanogaster.Rai P., Ratnaparkhi A., Kumar Roy J.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCBrain Res 1816:148442-148442 (2023)Mapped to13
Unc13A dynamically stabilizes vesicle priming at synaptic release sites for short-term facilitation and homeostatic potentiation.Jusyte M., Blaum N., Bohme M.A., Berns M.M.M., Bonard A.E., Vamosi A.B., Pushpalatha K.V., Kobbersmed J.R.L., Walter A.M.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCCell Rep 42:112541-112541 (2023)Mapped to22
Glycolytically impaired Drosophila glial cells fuel neural metabolism via beta-oxidation.McMullen E., Hertenstein H., Strassburger K., Deharde L., Brankatschk M., Schirmeier S.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCNat Commun 14:2996-2996 (2023)Mapped to23
The duration of caffeine treatment plays an essential role in its effect on sleep and circadian rhythm.Segu A., Kannan N.N.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCSleep Adv 4:zpad014-zpad014 (2023)Mapped to21
Rapid cell type-specific nascent proteome labeling in <i>Drosophila</i>.Villalobos-Cantor S., Barrett R.M., Condon A.F., Arreola-Bustos A., Rodriguez K.M., Cohen M.S., Martin I.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCElife 12:e83545-e83545 (2023)Mapped to21
Sorbitol reduction via govorestat ameliorates synaptic dysfunction and neurodegeneration in sorbitol dehydrogenase deficiency.Zhu Y., Lobato A.G., Rebelo A.P., Canic T., Ortiz-Vega N., Tao X., Syed S., Yanick C., Saporta M.[...], Zhai R.G.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCJCI Insight 8:e164954-e164954 (2023)Mapped to12
Identification of genes regulating stimulus-dependent synaptic assembly in Drosophila using an automated synapse quantification system.Osaka J., Yasuda H., Watanuki Y., Kato Y., Nitta Y., Sugie A., Sato M., Suzuki T.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCGenes Genet Syst 97:297-309 (2023)Mapped to29
Interactive nanocluster compaction of the ELKS scaffold and Cacophony Ca<sup>2+</sup> channels drives sustained active zone potentiation.Ghelani T., Escher M., Thomas U., Esch K., Lutzkendorf J., Depner H., Maglione M., Parutto P., Gratz S.[...], Sigrist S.J.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCSci Adv 9:eade7804-eade7804 (2023)Mapped to47
Single-Molecule Localization Microscopy of Presynaptic Active Zones in <i>Drosophila melanogaster</i> after Rapid Cryofixation.Mrestani A., Lichter K., Siren A.L., Heckmann M., Paul M.M., Pauli M.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCInt J Mol Sci 24:2128-2128 (2023)Mapped to9
The Neuron Navigators: Structure, function, and evolutionary history.Powers R.M., Hevner R.F., Halpain S.View abstractSourceFlyBase: FBgn0259246PubMedEurope PMCFront Mol Neurosci 15:1099554-1099554 (2022)Mapped to21