2022
Parallel locomotor control strategies in mice and flies
Gonçalves AI, Zavatone-Veth JA, Carey MR, Clark DA. Parallel locomotor control strategies in mice and flies. Current Opinion In Neurobiology 2022, 73: 102516. PMID: 35158168, PMCID: PMC12103226, DOI: 10.1016/j.conb.2022.01.001.Peer-Reviewed Original Research
2019
The manifold structure of limb coordination in walking Drosophila
DeAngelis BD, Zavatone-Veth JA, Clark DA. The manifold structure of limb coordination in walking Drosophila. ELife 2019, 8: e46409. PMID: 31250807, PMCID: PMC6598772, DOI: 10.7554/elife.46409.Peer-Reviewed Original Research
2014
Rhythmic control of activity and sleep by class B1 GPCRs
Kunst M, Tso MC, Ghosh DD, Herzog ED, Nitabach MN. Rhythmic control of activity and sleep by class B1 GPCRs. Critical Reviews In Biochemistry And Molecular Biology 2014, 50: 18-30. PMID: 25410535, PMCID: PMC4648372, DOI: 10.3109/10409238.2014.985815.Peer-Reviewed Original ResearchConceptsGenetic model organismClass B1 GPCRsModel organismsC. elegansMetazoan cladesMolecular roleCircadian timekeepingB1 familyMolecular mechanismsG proteinsRhythmic controlDaily rhythmsCircadian rhythmRemarkable parallelsMultiple cellsDrosophilaCladeElegansPDFRGPCRsIntercellularReceptorsOrganismsVPAC2 receptorsTimekeeping
2012
The G protein regulator AGS-3 allows C. elegans to alter behaviors in response to food deprivation
Hofler C, Koelle MR. The G protein regulator AGS-3 allows C. elegans to alter behaviors in response to food deprivation. Worm 2012, 1: 56-60. PMID: 24058824, PMCID: PMC3670173, DOI: 10.4161/worm.19042.Peer-Reviewed Original ResearchC. elegansAGS-3Genetic model organismRIC-8Model organismsMolecular mechanismsElegansG proteinsBehavioral responsesFood deprivationO familyGαoProteinNervous system functionBiochemical changesNeural responsesBrain actRecent studiesFood-seeking behaviorHuman obesityFood restrictionOrganismsSpeciesDeprivationObesity
2005
Identification of mutants in inbred Xenopus tropicalis
Grammer TC, Khokha MK, Lane MA, Lam K, Harland RM. Identification of mutants in inbred Xenopus tropicalis. Cells And Development 2005, 122: 263-272. PMID: 15763207, DOI: 10.1016/j.mod.2004.11.003.Peer-Reviewed Original ResearchConceptsXenopus tropicalisRecessive embryonic lethalsGenetic model organismEarly vertebrate developmentIdentification of mutantsFuture mutagenesisVertebrate developmentMutant analysisModel organismsX. tropicalisEmbryonic lethalGenetic analysisGenetic backgroundFrogsMutationsTropicalisAmphibiansMutantsMutagenesisLethalGeneticsOrganismsStrainsCrossHybrids
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