2019
Comparative genomic analysis of six Glossina genomes, vectors of African trypanosomes
Attardo GM, Abd-Alla AMM, Acosta-Serrano A, Allen JE, Bateta R, Benoit JB, Bourtzis K, Caers J, Caljon G, Christensen MB, Farrow DW, Friedrich M, Hua-Van A, Jennings EC, Larkin DM, Lawson D, Lehane MJ, Lenis VP, Lowy-Gallego E, Macharia RW, Malacrida AR, Marco HG, Masiga D, Maslen GL, Matetovici I, Meisel RP, Meki I, Michalkova V, Miller WJ, Minx P, Mireji PO, Ometto L, Parker AG, Rio R, Rose C, Rosendale AJ, Rota-Stabelli O, Savini G, Schoofs L, Scolari F, Swain MT, Takáč P, Tomlinson C, Tsiamis G, Van Den Abbeele J, Vigneron A, Wang J, Warren WC, Waterhouse RM, Weirauch MT, Weiss BL, Wilson RK, Zhao X, Aksoy S. Comparative genomic analysis of six Glossina genomes, vectors of African trypanosomes. Genome Biology 2019, 20: 187. PMID: 31477173, PMCID: PMC6721284, DOI: 10.1186/s13059-019-1768-2.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsDNA Transposable ElementsDrosophila melanogasterFemaleGene Expression RegulationGenes, InsectGenes, X-LinkedGenome, InsectGenomicsGeographyInsect ProteinsInsect VectorsMaleMutagenesis, InsertionalPhylogenyRepetitive Sequences, Nucleic AcidSequence Homology, Amino AcidSyntenyTrypanosomaTsetse FliesWolbachiaConceptsFemale-specific gene expressionMale seminal proteinsSex-linked scaffoldsComparative genomic analysisLow evolutionary ratesVectors of humanSyntenic analysisEvolutionary ratesNovel pestsEvolutionary relationshipsBacterial symbiosisGustatory genesEvolutionary biologyHelicase activityStructural conservationDifferent habitatsSeminal proteinsGenomic analysisHost preferenceX chromosomeDisease control strategiesUnique adaptationsGene expressionAfrican trypanosomesRhodopsin gene
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
1993
Phylogenetically distant symbiotic microorganisms reside in Glossina midgut and ovary tissues
O'NEILL S, GOODING R, AKSOY S. Phylogenetically distant symbiotic microorganisms reside in Glossina midgut and ovary tissues. Medical And Veterinary Entomology 1993, 7: 377-383. PMID: 8268495, DOI: 10.1111/j.1365-2915.1993.tb00709.x.Peer-Reviewed Original ResearchConceptsIntracellular bacterial symbiontsBlood-feeding insectsDNA oligonucleotide primersBacterial symbiontsSymbiotic microorganismsAlpha subdivisionSymbiotic bacteriaGamma subdivisionGenus WolbachiaGlossina speciesPolymerase chain reactionOvary tissuesOligonucleotide primersTsetse fliesMidgutSpeciesSymbiontsInsectsWolbachiaProteobacteriaSubspeciesChain reactionFliesMicroorganismsTissue