2025
Spiroplasma infection in colonized Glossina fuscipes fuscipes: impact on mass rearing and the sterile insect technique
Dera K, Barro D, Kaboré B, Gstöttenmayer F, Dieng M, Pagabeleguem S, Weiss B, Fiorenza G, Piccinno R, Malacrida A, Aksoy S, de Beer C, Mach R, Vreysen M, Abd‐Alla A. Spiroplasma infection in colonized Glossina fuscipes fuscipes: impact on mass rearing and the sterile insect technique. Insect Science 2025 PMID: 40415533, DOI: 10.1111/1744-7917.70078.Peer-Reviewed Original ResearchSpiroplasma infectionSterile insect techniqueDevelopment of disease control strategiesGlossina fuscipes fuscipesParasitic African trypanosomesAnimal African trypanosomosesGenus of endosymbiotic bacteriaLength of larval developmentInfection prevalenceInsect techniqueDisease control strategiesAdult eclosion ratesMating advantageEndosymbiotic bacteriaRefractory to infectionSpiroplasmaAfrican trypanosomesTsetse fecundityLarval developmentEclosion rateLaboratory coloniesFly hostsMass rearingTsetse fliesColonies
2014
Establishment and Maintenance of Small Scale Tsetse Colonies
Aksoy S. Establishment and Maintenance of Small Scale Tsetse Colonies. 2014, 165-175. DOI: 10.1201/b16804-7.Peer-Reviewed Original ResearchDisease control strategiesLaboratory rearing methodRearing methodTsetse coloniesRegions of sub-Saharan AfricaLaboratory coloniesResearch colonyParasite transmissionParasitic African trypanosomesTsetse fliesFeeding conditionsImportant vectorTsetse biologySub-Saharan AfricaAfrican trypanosomesFeedingFliesGlossinaProtozoanAgriculture
2007
Symbiosis-Based Technological Advances to Improve Tsetse Glossina spp. SIT Application
Aksoy S, Weiss B. Symbiosis-Based Technological Advances to Improve Tsetse Glossina spp. SIT Application. 2007, 137-148. DOI: 10.1007/978-1-4020-6059-5_12.Peer-Reviewed Original ResearchSterile insect techniqueCytoplasmic incompatibilityField populationsWolbachia infectionGene productsTsetse fliesGerm-line transformationComplete genome sequencePresence of WolbachiaGene expression experimentsPest control toolForeign gene productsParasitic African trypanosomesGlossina sppMidgut symbiontsArea-wide basisFly developmentInsect speciesReproductive incompatibilitySIT applicationMale sterilityUninfected insectsGenome sequenceMating incompatibilityExpression experiments
1999
Concordant Evolution of a Symbiont with Its Host Insect Species: Molecular Phylogeny of Genus Glossina and Its Bacteriome-Associated Endosymbiont, Wigglesworthia glossinidia
Chen X, Li S, Aksoy S. Concordant Evolution of a Symbiont with Its Host Insect Species: Molecular Phylogeny of Genus Glossina and Its Bacteriome-Associated Endosymbiont, Wigglesworthia glossinidia. Journal Of Molecular Evolution 1999, 48: 49-58. PMID: 9873076, DOI: 10.1007/pl00006444.Peer-Reviewed Original ResearchConceptsHost insect speciesRDNA sequence analysisInsect speciesGroup speciesSequence analysisSister-group relationshipSpacer 2 (ITS2) regionParasitic African trypanosomesWigglesworthia glossinidiaMolecular phylogenyDifferentiated epithelial cellsGlossina austeniPrimary symbiontSecondary symbiontsSymbiotic associationDistinct lineagesRibosomal DNAGenus WolbachiaSymbiotic organismsTaxonomic placementΓ-subdivisionITS-2Third organismMidgut cellsAfrican trypanosomes
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