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
2004
RGS-7 Completes a Receptor-Independent Heterotrimeric G Protein Cycle to Asymmetrically Regulate Mitotic Spindle Positioning in C. elegans
Hess HA, Röper JC, Grill SW, Koelle MR. RGS-7 Completes a Receptor-Independent Heterotrimeric G Protein Cycle to Asymmetrically Regulate Mitotic Spindle Positioning in C. elegans. Cell 2004, 119: 209-218. PMID: 15479638, DOI: 10.1016/j.cell.2004.09.025.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCaenorhabditis elegansCaenorhabditis elegans ProteinsCell DivisionCentrosomeEmbryo, NonmammalianGTP-Binding Protein alpha SubunitsGuanine Nucleotide Exchange FactorsGuanosine TriphosphateHeterotrimeric GTP-Binding ProteinsMutationNuclear ProteinsProtein BindingRecombinant Fusion ProteinsRGS ProteinsRNA InterferenceSpindle ApparatusConceptsG protein functionRIC-8G proteinsProtein functionC. elegans embryosAsymmetric cell divisionG protein effectorsHeterotrimeric G proteinsMitotic spindle positioningG protein signalingG-protein cycleSeven-transmembrane receptorsGPR-1/2RGS domainElegans embryosGTPase activatorProtein effectorsProtein cycleMicrotubule forcesSpindle positioningProtein signalingCell cortexCell divisionGTP hydrolysisMitotic spindle