2023
Genomic evidence of sex chromosome aneuploidy and infection-associated genotypes in the tsetse fly Glossina fuscipes, the major vector of African trypanosomiasis in Uganda
Saarman N, Son J, Zhao H, Cosme L, Kong Y, Li M, Wang S, Weiss B, Echodu R, Opiro R, Aksoy S, Caccone A. Genomic evidence of sex chromosome aneuploidy and infection-associated genotypes in the tsetse fly Glossina fuscipes, the major vector of African trypanosomiasis in Uganda. Infection Genetics And Evolution 2023, 114: 105501. PMID: 37709241, PMCID: PMC10593118, DOI: 10.1016/j.meegid.2023.105501.Peer-Reviewed Original ResearchConceptsGenome-wide association analysisNovel vector control strategiesAnimal African trypanosomiasisSex chromosome aneuploidyNatural populationsGenome assemblySex chromosomesGenomic regionsGenomic evidenceGenetic variationBp upstreamAutosomal SNPsSeq dataTrypanosome infectionTrypanosome parasitesAssociation analysisMolecular pathwaysAssembly metricsLinkage disequilibriumLecithin-cholesterol acyltransferaseAfrican trypanosomiasisMajor vectorGenomeSNPsPrimary vector
2014
Genome Sequence of the Tsetse Fly (Glossina morsitans): Vector of African Trypanosomiasis
Initiative I, Attardo G, Abila P, Auma J, Baumann A, Benoit J, Brelsfoard C, Ribeiro J, Cotton J, Pham D, Darby A, Van Den Abbeele J, Denlinger D, Field L, Nyanjom S, Gaunt M, Geiser D, Gomulski L, Haines L, Hansen I, Jones J, Kibet C, Kinyua J, Larkin D, Lehane M, Rio R, Macdonald S, Macharia R, Malacrida A, Marco H, Marucha K, Masiga D, Meuti M, Mireji P, Obiero G, Koekemoer J, Okoro C, Omedo I, Osamor V, Balyeidhusa A, Peyton J, Price D, Quail M, Ramphul U, Rawlings N, Riehle M, Robertson H, Sanders M, Scott M, Dashti Z, Snyder A, Srivastava T, Stanley E, Swain M, Hughes D, Tarone A, Taylor T, Telleria E, Thomas G, Walshe D, Wilson R, Winzerling J, Acosta-Serrano A, Aksoy S, Arensburger P, Aslett M, Bateta R, Benkahla A, Berriman M, Bourtzis K, Caers J, Caljon G, Christoffels A, Falchetto M, Friedrich M, Fu S, Gäde G, Githinji G, Gregory R, Hall N, Harkins G, Hattori M, Hertz-Fowler C, Hide W, Hu W, Imanishi T, Inoue N, Jonas M, Kawahara Y, Koffi M, Kruger A, Lawson D, Lehane S, Lehväslaiho H, Luiz T, Makgamathe M, Malele I, Manangwa O, Manga L, Megy K, Michalkova V, Mpondo F, Mramba F, Msangi A, Mulder N, Murilla G, Mwangi S, Okedi L, Ommeh S, Ooi C, Ouma J, Panji S, Ravel S, Rose C, Sakate R, Schoofs L, Scolari F, Sharma V, Sim C, Siwo G, Solano P, Stephens D, Suzuki Y, Sze S, Touré Y, Toyoda A, Tsiamis G, Tu Z, Wamalwa M, Wamwiri F, Wang J, Warren W, Watanabe J, Weiss B, Willis J, Wincker P, Zhang Q, Zhou J. Genome Sequence of the Tsetse Fly (Glossina morsitans): Vector of African Trypanosomiasis. Science 2014, 344: 380-386. PMID: 24763584, PMCID: PMC4077534, DOI: 10.1126/science.1249656.Peer-Reviewed Original ResearchConceptsGenome sequenceLactation-specific proteinsProtein-encoding genesBacterial genome sequencesPathogen recognition proteinsTsetse fliesMicrobial symbiosesTsetse biologyViviparous reproductionGenome dataRecognition proteinsSole vectorsChromosomal integrationDisease vectorsAfrican trypanosomiasisGenomeGenesFliesProteinSequenceMultiple aspectsHuman African trypanosomiasisImportant insightsMultiple discoveriesSymbioses
2007
Refractoriness in Tsetse Flies (Diptera: Glossinidae) May be a Matter of Timing
Nayduch D, Aksoy S. Refractoriness in Tsetse Flies (Diptera: Glossinidae) May be a Matter of Timing. Journal Of Medical Entomology 2007, 51 DOI: 10.1603/0022-2585(2007)44[660:ritfdg]2.0.co;2.Peer-Reviewed Original ResearchAttacin expressionTsetse fliesReverse geneticsRNA interferenceFly speciesGene expressionAttacinCertain speciesSusceptible speciesBlood feedingSpeciesVector competenceFliesImmune challengeEfficient vectorDevastating diseaseExpressionRefractory speciesTsetseG. pallidipesAfrican trypanosomiasisHumoral immune responseSalivary glandsRepressionDisease transmissionRefractoriness in Tsetse Flies (Diptera: Glossinidae) May be a Matter of Timing
Nayduch D, Aksoy S. Refractoriness in Tsetse Flies (Diptera: Glossinidae) May be a Matter of Timing. Journal Of Medical Entomology 2007, 44: 660-665. DOI: 10.1603/0022-2585%282007%2944%5b660%3aritfdg%5d2.0.co%3b2.Peer-Reviewed Original ResearchAttacin expressionTsetse fliesReverse geneticsRNA interferenceFly speciesGene expressionAttacinCertain speciesSusceptible speciesBlood feedingSpeciesVector competenceFliesImmune challengeEfficient vectorSusceptible fliesDevastating diseaseExpressionRefractory speciesTsetseG. pallidipesAfrican trypanosomiasisHumoral immune responseSalivary glandsRepression
2001
Prospects for control of African trypanosomiasis by tsetse vector manipulation
Aksoy S, O'Neill S, Maudlin I, Dale C, Robinson A. Prospects for control of African trypanosomiasis by tsetse vector manipulation. Trends In Parasitology 2001, 17: 29-35. PMID: 11137738, DOI: 10.1016/s1471-4922(00)01850-x.Peer-Reviewed Original ResearchConceptsArea-wide approachHuman disease managementLivestock ownersAnimal diseasesAgricultural outputMolecular genetic approachesImportant insectsInfected hostDisease managementEconomic incentivesTsetse populationsVector manipulationGenetic approachesMammalian hostsVector competenceEffective vaccineDiseases reliesHostTrypanosomiasisControl strategyInsectsAfrican trypanosomiasisTsetseLong runControl