2011
Reversible response of protein localization and microtubule organization to nutrient stress during Drosophila early oogenesis
Shimada Y, Burn KM, Niwa R, Cooley L. Reversible response of protein localization and microtubule organization to nutrient stress during Drosophila early oogenesis. Developmental Biology 2011, 355: 250-262. PMID: 21570389, PMCID: PMC3118931, DOI: 10.1016/j.ydbio.2011.04.022.Peer-Reviewed Original ResearchConceptsEgg chambersNutrient stressIntercellular transportMT reorganizationNutrient availabilityNurse cellsPutative RNA binding proteinMT-dependent mannerRNA binding proteinYpsilon SchachtelDrosophila oogenesisProcessing bodiesProtein localizationEarly oogenesisNutrient deprivationMicrotubule organizationMetabolic checkpointCytoplasmic componentsAnimal oocytesStress responseYolk uptakeBinding proteinPrevitellogenic stageOogenesisIndependent mechanisms
2002
Dcas Is Required for importin-α3 Nuclear Export and Mechano-Sensory Organ Cell Fate Specification in Drosophila
Tekotte H, Berdnik D, Török T, Buszczak M, Jones LM, Cooley L, Knoblich JA, Davis I. Dcas Is Required for importin-α3 Nuclear Export and Mechano-Sensory Organ Cell Fate Specification in Drosophila. Developmental Biology 2002, 244: 396-406. PMID: 11944946, DOI: 10.1006/dbio.2002.0612.Peer-Reviewed Original ResearchMeSH KeywordsActive Transport, Cell NucleusAlpha KaryopherinsAnimalsApoptosisCellular Apoptosis Susceptibility ProteinDNA HelicasesDrosophila melanogasterDrosophila ProteinsEmbryo, NonmammalianGene Expression Regulation, DevelopmentalIn Situ HybridizationMechanoreceptorsMorphogenesisPhylogenyRNA, MessengerSense OrgansConceptsNuclear exportEmbryonic central nervous systemNuclear protein importCell fate specificationSpecific developmental phenotypesHuman genetic disordersProtein importDrosophila orthologImportin alphaFate specificationExport receptorCell identityDevelopmental phenotypesHypomorphic alleleEmbryonic cellsVivo functionNotch pathwayTissue specificityCytoplasmic distributionEpidermal cellsDifferent tissuesCharacteristics of mutationsGenetic disordersMutationsPhenotype
1998
Apoptosis in late stage Drosophila nurse cells does not require genes within the H99 deficiency
Foley K, Cooley L. Apoptosis in late stage Drosophila nurse cells does not require genes within the H99 deficiency. Development 1998, 125: 1075-1082. PMID: 9463354, DOI: 10.1242/dev.125.6.1075.Peer-Reviewed Original ResearchConceptsEgg chambersNurse cellsDNA fragmentationDrosophila nurse cellsMutant egg chambersDrosophila egg chamberOvarian expression patternsDrosophila apoptosisGermline clonesHead involutionCytoplasm transportPositive regulatorRegulatory genesStage 13Cytoplasm transferApoptotic vesiclesCytoplasmic factorsNegative regulatorExpression patternsWild typeGenesFragmented DNAOogenesisApoptosisStage 12