2023
Evolutionarily conserved midbody remodeling precedes ring canal formation during gametogenesis
Price K, Tharakan D, Cooley L. Evolutionarily conserved midbody remodeling precedes ring canal formation during gametogenesis. Developmental Cell 2023, 58: 474-488.e5. PMID: 36898376, PMCID: PMC10059090, DOI: 10.1016/j.devcel.2023.02.008.Peer-Reviewed Original ResearchConceptsCanal formationStable intercellular bridgesGerm cell divisionMidbody ringTime-lapse imagingFemale germlineCell cytokinesisDrosophila malesRing canalsComplete cytokinesisKinase functionCell divisionCytokinesis eventsBroad functionsCytokinesisIntercellular bridgesExtensive remodelingMidbodyDrosophilaBiological systemsDisease statesImportant insightsGametogenesisGermlineProtein
2019
Proximity labeling reveals novel interactomes in live Drosophila tissue
Mannix KM, Starble RM, Kaufman RS, Cooley L. Proximity labeling reveals novel interactomes in live Drosophila tissue. Development 2019, 146: dev176644. PMID: 31208963, PMCID: PMC6679357, DOI: 10.1242/dev.176644.Peer-Reviewed Original ResearchMeSH KeywordsActin CytoskeletonActinsAnimalsAnimals, Genetically ModifiedCell CommunicationCell DifferentiationCytological TechniquesCytoskeletonDNA-(Apurinic or Apyrimidinic Site) LyaseDrosophila melanogasterFemaleGenes, ReporterGerm CellsIntercellular JunctionsMolecular ImagingOocytesOogenesisProtein BindingProtein Interaction MapsStaining and LabelingConceptsProximity labelingIntercellular bridgesProximity-dependent biotinylationStable intercellular bridgesRC proteinDynamic actin cytoskeletonProtein interactome analysisRNA interference screenNovel interactomePrey genesUncharacterized proteinsDistinct interactomesDrosophila tissuesActin cytoskeletonInterference screenInteractome analysisLive tissueMultiple proteinsProximity ligationInteractomeGerm cellsIntercellular communicationRespective preyFunctional roleProtein
2014
Antivirulence Properties of an Antifreeze Protein
Heisig M, Abraham NM, Liu L, Neelakanta G, Mattessich S, Sultana H, Shang Z, Ansari JM, Killiam C, Walker W, Cooley L, Flavell RA, Agaisse H, Fikrig E. Antivirulence Properties of an Antifreeze Protein. Cell Reports 2014, 9: 417-424. PMID: 25373896, PMCID: PMC4223805, DOI: 10.1016/j.celrep.2014.09.034.Peer-Reviewed Original ResearchConceptsAntifreeze proteinsDiverse bacteriaProtein bindsWild-type animalsBiofilm formationAntivirulence agentsIAFGPMethicillin-resistant Staphylococcus aureusHost controlProteinAntifreeze glycoproteinsIxodes scapularisAntivirulence propertiesBacteriaSeptic shockTherapeutic strategiesBacterial infectionsInfectious diseasesMicrobesStaphylococcus aureusFliesBindsInfectionCatheter tubingPathogens
2013
Bridging the divide
McLean PF, Cooley L. Bridging the divide. Fly 2013, 8: 13-18. PMID: 24406334, PMCID: PMC3974888, DOI: 10.4161/fly.27016.Peer-Reviewed Original ResearchConceptsRing canalsMitotic clonesSomatic tissuesDrosophila somatic tissuesFollicle cellsProtein of interestNon-recombined cellsDirect cytoplasmic connectionsDrosophila oogenesisImaginal discsGenetic toolsIntercellular exchangeProtein movementCleavage furrowCytoplasmic connectionsProteinClonesCellsMosaic cellsClonal dataOogenesisGFPTissueProtein Equilibration Through Somatic Ring Canals in Drosophila
McLean PF, Cooley L. Protein Equilibration Through Somatic Ring Canals in Drosophila. Science 2013, 340: 1445-1447. PMID: 23704373, PMCID: PMC3819220, DOI: 10.1126/science.1234887.Peer-Reviewed Original ResearchConceptsRing canalsLarval imaginal discsDrosophila ovaryClone boundariesImaginal discsIncomplete cytokinesisIntercellular communicationCytoplasmic contentsFollicle cellsIntercellular bridgesTissue biologyProtein expressionConnected cellsDrosophilaCytokinesisCellsBiologyProteinTissueExpressionOvaries
2012
Expression of Ixodes scapularis Antifreeze Glycoprotein Enhances Cold Tolerance in Drosophila melanogaster
Neelakanta G, Hudson AM, Sultana H, Cooley L, Fikrig E. Expression of Ixodes scapularis Antifreeze Glycoprotein Enhances Cold Tolerance in Drosophila melanogaster. PLOS ONE 2012, 7: e33447. PMID: 22428051, PMCID: PMC3302814, DOI: 10.1371/journal.pone.0033447.Peer-Reviewed Original ResearchMeSH KeywordsAcclimatizationAnalysis of VarianceAnimalsAnimals, Genetically ModifiedAntifreeze ProteinsApoptosisCold TemperatureDrosophila melanogasterEmbryo, NonmammalianEnzyme-Linked Immunosorbent AssayFemaleImmunoblottingIn Situ Nick-End LabelingIxodesMaleMusclesOligonucleotidesReal-Time Polymerase Chain ReactionConceptsNon-freezing temperaturesD. melanogasterDrosophila melanogasterCold toleranceLow non-freezing temperaturesFemale adult fliesTransgenic D. melanogasterCold shock injuryAbility of fliesAntifreeze glycoproteinsAdult fliesMolecular basisMelanogasterFlight musclesFliesAntifreeze proteinsHatching rateHigher survival rateApoptotic damageGlycoproteinExpressionToleranceEmbryosProteinApoptosis
2011
Intercellular protein movement in syncytial Drosophila follicle cells
Airoldi SJ, McLean PF, Shimada Y, Cooley L. Intercellular protein movement in syncytial Drosophila follicle cells. Journal Of Cell Science 2011, 124: 4077-4086. PMID: 22135360, PMCID: PMC3244987, DOI: 10.1242/jcs.090456.Peer-Reviewed Original ResearchConceptsImaginal disc cellsRing canalsFollicle cellsPavarotti kinesin-like proteinDrosophila follicle cellsIntercellular protein movementEgg chamber developmentKinesin-like proteinMitotic cleavage furrowsLive-cell confocal microscopyDisc cellsBroad functional significanceDrosophila germlineGermline cellsCytoplasmic proteinsSomatic cellsProtein movementCleavage furrowFunctional significanceChamber developmentSyncytial organizationConfocal microscopyGermlineProteinCells
2010
Drosophila Kelch functions with Cullin-3 to organize the ring canal actin cytoskeleton
Hudson AM, Cooley L. Drosophila Kelch functions with Cullin-3 to organize the ring canal actin cytoskeleton. Journal Of Cell Biology 2010, 188: 29-37. PMID: 20065088, PMCID: PMC2812842, DOI: 10.1083/jcb.200909017.Peer-Reviewed Original ResearchConceptsDrosophila KelchCullin 3Cullin-RING ubiquitin E3 ligasesGermline ring canalsSubstrate adaptor proteinCullin-RING ligaseDiverse protein familiesF-actin cytoskeletal structureUbiquitin E3 ligasesProtein ubiquitylationActin cytoskeletonE3 ligasesRing canalsAdaptor proteinProtein familySequence motifsCytoskeletal structuresFilamentous actinKelchProteinUbiquitylationLigasesCytoskeletonLigaseRepeats
2008
Phylogenetic, Structural and Functional Relationships between WD- and Kelch-Repeat Proteins
Hudson AM, Cooley L. Phylogenetic, Structural and Functional Relationships between WD- and Kelch-Repeat Proteins. Subcellular Biochemistry 2008, 48: 6-19. PMID: 18925367, DOI: 10.1007/978-0-387-09595-0_2.Peer-Reviewed Original ResearchConceptsΒ-propeller proteinsKelch repeat proteinWidespread protein familyWD-repeat proteinΒ-propeller structureΒ-propeller foldΒ-propeller domainWD repeatsMolecular functionsCommon ancestorProtein familyEvolutionary advantageDiverse familySimilar functionsProteinΒ-sheetKelchStructural motifsRepeat unitsExhibit similaritiesMotifFunctional relationshipFamilySuperfamilyAncestor
2007
Jagunal is required for reorganizing the endoplasmic reticulum during Drosophila oogenesis
Lee S, Cooley L. Jagunal is required for reorganizing the endoplasmic reticulum during Drosophila oogenesis. Journal Of Cell Biology 2007, 176: 941-952. PMID: 17389229, PMCID: PMC2064080, DOI: 10.1083/jcb.200701048.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBase SequenceCaenorhabditis elegansCell DifferentiationConserved SequenceCytoplasmic StreamingDrosophila melanogasterDrosophila ProteinsEndoplasmic ReticulumExocytosisGolgi ApparatusMembrane ProteinsMicroscopy, Electron, TransmissionMolecular Sequence DataOocytesOogenesisProtein TransportSequence Homology, Amino AcidSequence Homology, Nucleic AcidTransport VesiclesZebrafishConceptsVesicular trafficMembrane trafficEndoplasmic reticulumER reorganizationER membrane proteinsDrosophila melanogaster oocytesDrosophila oogenesisMembrane proteinsOocyte endoplasmic reticulumLateral membranesER clusteringReticulumImportant mechanismVitellogenesisOocytesOogenesisEndocytosisReorganizationProteinMembraneCellsExploring Strategies for Protein Trapping in Drosophila
Quiñones-Coello A, Petrella LN, Ayers K, Melillo A, Mazzalupo S, Hudson AM, Wang S, Castiblanco C, Buszczak M, Hoskins RA, Cooley L. Exploring Strategies for Protein Trapping in Drosophila. Genetics 2007, 175: 1089-1104. PMID: 17179094, PMCID: PMC1840052, DOI: 10.1534/genetics.106.065995.Peer-Reviewed Original ResearchConceptsGreen fluorescent proteinProtein trapEnhancer trapFluorescent proteinExpression dataGFP expressionGFP fusion proteinFluorescent protein tagsCell biological studiesProduction of GFPWeb-accessible databaseChromosomal positionProtein tagsProtein trappingEndogenous proteinsGenomic DNASplice acceptorDonor sequenceNew insertionsMolecular informationGenesProteinDrosophilaTransposonBiological studiesThe Ovhts polyprotein is cleaved to produce fusome and ring canal proteins required for Drosophila oogenesis
Petrella LN, Smith-Leiker T, Cooley L. The Ovhts polyprotein is cleaved to produce fusome and ring canal proteins required for Drosophila oogenesis. Development 2007, 134: 703-712. PMID: 17215303, DOI: 10.1242/dev.02766.Peer-Reviewed Original ResearchConceptsDrosophila oogenesisRing canalsFemale sterile mutantPost-mitotic cellsDrosophila adducinSpecialized organellesEarly oogenesisLate oogenesisHT proteinsFusomeMitotic proliferationHT genesMitotic cellsOogenesisGerm cellsNormal developmentCell proliferationProteinPolyproteinCellsEssential componentProliferationMutantsAdducinOrganelles
2006
Illuminating the role of caspases during Drosophila oogenesis
Mazzalupo S, Cooley L. Illuminating the role of caspases during Drosophila oogenesis. Cell Death & Differentiation 2006, 13: 1950-1959. PMID: 16528381, DOI: 10.1038/sj.cdd.4401892.Peer-Reviewed Original ResearchConceptsNurse cell deathCaspase activityCell deathNurse cellsFluorescent proteinApoptosis protein 1Caspase inhibitor p35Caspase cleavage siteStarvation-induced deathRole of caspasesStarvation-induced apoptosisCyan fluorescent proteinYellow fluorescent proteinDrosophila inhibitorGermline developmentDrosophila oogenesisNormal oogenesisPoor environmental conditionsOogenesisCleavage siteProtein 1Environmental conditionsCaspasesProteinOocytes
2003
Drosophila filamin is required for follicle cell motility during oogenesis
Sokol NS, Cooley L. Drosophila filamin is required for follicle cell motility during oogenesis. Developmental Biology 2003, 260: 260-272. PMID: 12885568, DOI: 10.1016/s0012-1606(03)00248-3.Peer-Reviewed Original ResearchConceptsGermline cystsFilamin proteinsCell motilityFollicle cell morphogenesisActin-binding domainActin binding proteinsFilamin repeatsDrosophila ovaryFilamin functionCell morphogenesisDrosophila filaminFilamin familyCell movementProtein 120Cell shapeBorder cellsCell locomotionFollicle cellsBinding proteinPoint mutationsInitial encapsulationProteinMorphogenesisReduced expressionFilamin
2002
UNDERSTANDING THE FUNCTION OF ACTIN-BINDING PROTEINS THROUGH GENETIC ANALYSIS OF DROSOPHILA OOGENESIS
Hudson AM, Cooley L. UNDERSTANDING THE FUNCTION OF ACTIN-BINDING PROTEINS THROUGH GENETIC ANALYSIS OF DROSOPHILA OOGENESIS. Annual Review Of Genetics 2002, 36: 455-488. PMID: 12429700, DOI: 10.1146/annurev.genet.36.052802.114101.Peer-Reviewed Original ResearchConceptsActin-binding proteinsActin cytoskeletonGenetic analysisNew actin-binding proteinCell biological approachesGenetic model systemActin binding proteinsRecent genetic analysesDrosophila ovaryDrosophila oogenesisGenetic screenBiological approachesGenetic resultsProteinCytoskeletonOogenesisModel systemUltrastructural characteristicsActinScreenUnderstandingOvariesDrosophila Kelch regulates actin organization via Src64-dependent tyrosine phosphorylation
Kelso RJ, Hudson AM, Cooley L. Drosophila Kelch regulates actin organization via Src64-dependent tyrosine phosphorylation. Journal Of Cell Biology 2002, 156: 703-713. PMID: 11854310, PMCID: PMC2174084, DOI: 10.1083/jcb.200110063.Peer-Reviewed Original ResearchMeSH KeywordsActinsAlanineAmino Acid SequenceAnimalsCarrier ProteinsCross-Linking ReagentsDrosophilaDrosophila ProteinsFemaleInsect ProteinsMicrofilament ProteinsMicroscopy, ElectronMolecular Sequence DataMutagenesis, Site-DirectedPhosphorylationProtein-Tyrosine KinasesProto-Oncogene ProteinsRecombinant Fusion ProteinsSequence Homology, Amino AcidSignal TransductionTyrosineConceptsRing canalsActin organizationDrosophila kelch geneOvarian ring canalsRing canal growthActin cross-linking activitySite-directed mutagenesisTwo-dimensional electrophoresisActin binding siteKelch functionDrosophila KelchCross-linking activityProper morphogenesisKelch proteinTyrosine phosphorylationKelch geneNegative regulationRepeat 5KelchActin filamentsResidue 627Biochemical studiesCanal growthProteinMutants
2000
Eggs to die for: cell death during Drosophila oogenesis
Buszczak M, Cooley L. Eggs to die for: cell death during Drosophila oogenesis. Cell Death & Differentiation 2000, 7: 1071-1074. PMID: 11139280, DOI: 10.1038/sj.cdd.4400755.Peer-Reviewed Original ResearchConceptsGermline apoptosisCell deathDrosophila oogenesisFemale-sterile mutationsSterile mutationsFemale germlineC. elegansGermline cellsGenetic controlDefective cellsEssential nutrientsOogenesisSurviving oocytesApoptosisMorphological changesEggsDrosophilaElegansCellsLater stagesGermlineSpeciesProteinVital roleMutationsThe kelch repeat superfamily of proteins: propellers of cell function
Adams J, Kelso R, Cooley L, Adams J, Kelso R, Cooley L. The kelch repeat superfamily of proteins: propellers of cell function. Trends In Cell Biology 2000, 10: 17-24. PMID: 10603472, DOI: 10.1016/s0962-8924(99)01673-6.Peer-Reviewed Original ResearchConceptsKelch motifsKelch repeat proteinProtein-protein contact sitesRepeat proteinsTandem elementsMolecular basisORF1 proteinBiological roleContact sitesPolypeptide contextsTertiary structureStructural organizationProteinCell functionMotifDiverse activitiesKelchCurrent informationSequenceCellsMembers
1999
Drosophila quail, a villin-related protein, bundles actin filaments in apoptotic nurse cells
Matova N, Mahajan-Miklos S, Mooseker M, Cooley L. Drosophila quail, a villin-related protein, bundles actin filaments in apoptotic nurse cells. Development 1999, 126: 5645-5657. PMID: 10572041, DOI: 10.1242/dev.126.24.5645.Peer-Reviewed Original ResearchMeSH KeywordsActin CytoskeletonActinsAmino Acid SequenceAnimalsApoptosisBiological TransportCalciumCarrier ProteinsCloning, MolecularCytoplasmDrosophila melanogasterEscherichia coliHumansInsect ProteinsMicrofilament ProteinsMolecular Sequence DataRecombinant Fusion ProteinsSequence Homology, Amino AcidConceptsEgg chambersNurse cellsFilamentous actinActin filamentsCytoplasm transportNuclear envelopeQuail proteinGermline-specific proteinsMutant egg chambersNurse cell apoptosisActin bundle assemblyNew actin filamentsApoptotic nurse cellsActin-regulating proteinsBundles actin filamentsHuman villinDrosophila germlineSequence homologyBiochemical experimentsActin bundlesElevated cytoplasmic calciumProteinVillinActinAbundant network
1997
Drosophila Kelch Is an Oligomeric Ring Canal Actin Organizer
Robinson D, Cooley L. Drosophila Kelch Is an Oligomeric Ring Canal Actin Organizer. Journal Of Cell Biology 1997, 138: 799-810. PMID: 9265647, PMCID: PMC2138045, DOI: 10.1083/jcb.138.4.799.Peer-Reviewed Original ResearchConceptsDrosophila KelchRing canalsAmino halfKelch repeat domainStructure-function analysisAmino-terminal regionGerm cell membranesKelch family proteinDominant sterilityBTB domainProtein domainsRepeat domainKelchActin filamentsCell membraneProteinCanal localizationAdditional interactionsDrosophilaDomainCytoskeletonOogenesisLocalizationSterilityActin