2024
Aedes aegypti adiponectin receptor-like protein signaling facilitates Zika virus infection
Chen T, Marín-López A, Raduwan H, Fikrig E. Aedes aegypti adiponectin receptor-like protein signaling facilitates Zika virus infection. MBio 2024, 15: e02433-24. PMID: 39373507, PMCID: PMC11559040, DOI: 10.1128/mbio.02433-24.Peer-Reviewed Original ResearchReceptor-like proteinZika virus infectionVirus infectionDevelopment of effective control strategiesSignificant public health challengeTranscriptome analysisTrypsin genesMetabolic pathwaysProtein signalingPublic health challengeViral infectionTransmission of viral diseasesAedes aegypti</i>InfectionBlood digestionZika virusProteinSignificance of signalsComplex interactionsVirusEffective control strategiesViral diseasesZikaMosquitoesPathwayZika virus exists in enterocytes and enteroendocrine cells of the Aedes aegypti midgut
Chen T, Raduwan H, Marín-López A, Cui Y, Fikrig E. Zika virus exists in enterocytes and enteroendocrine cells of the Aedes aegypti midgut. IScience 2024, 27: 110353. PMID: 39055935, PMCID: PMC11269924, DOI: 10.1016/j.isci.2024.110353.Peer-Reviewed Original ResearchAedes aegypti midgutEnteroendocrine cellsSingle-cell RNA sequencingIntestinal stem cellsVirus infectionPathogen interactionsExpressed genesRNA sequencingCopy numberTranscriptomic changesFunctional studiesInfected cellsZika virus infectionEnteroendocrineBlood digestionRNA copy numberCellular levelCell processesGenesMidgutPotential targetCell clustersCellsEnterocytesViral infection
2022
Warm Blood Meal Increases Digestion Rate and Milk Protein Production to Maximize Reproductive Output for the Tsetse Fly, Glossina morsitans
Benoit J, Lahondère C, Attardo G, Michalkova V, Oyen K, Xiao Y, Aksoy S. Warm Blood Meal Increases Digestion Rate and Milk Protein Production to Maximize Reproductive Output for the Tsetse Fly, Glossina morsitans. Insects 2022, 13: 997. PMID: 36354821, PMCID: PMC9695897, DOI: 10.3390/insects13110997.Peer-Reviewed Original Research
2021
Analyzing gut microbiota composition in individual Anopheles mosquitoes after experimental treatment
Fofana A, Gendrin M, Romoli O, Yarbanga G, Ouédraogo G, Yerbanga R, Ouédraogo J. Analyzing gut microbiota composition in individual Anopheles mosquitoes after experimental treatment. IScience 2021, 24: 103416. PMID: 34901787, PMCID: PMC8637483, DOI: 10.1016/j.isci.2021.103416.Peer-Reviewed Original ResearchMosquito microbiotaHigh-throughput sequencing studiesHigh-throughput sequencingMosquito microbiomeMicrobiota compositionBlood digestionSemi-field conditionsMajor generaSequencing studiesGut samplesReduced microbial loadRelative abundanceMalaria transmissionOverall microbiota compositionBlood mealGut microbiota compositionInfluence of amoxicillinAnopheles mosquitoesAdult femalesNegative control dataMicrobiotaAntibiotic treatmentSpecific decreaseAmoxicillin preparationsMicrobial loadParatransgenic manipulation of a tsetse microRNA alters the physiological homeostasis of the fly’s midgut environment
Yang L, Weiss BL, Williams AE, Aksoy E, de Silva Orfano A, Son JH, Wu Y, Vigneron A, Karakus M, Aksoy S. Paratransgenic manipulation of a tsetse microRNA alters the physiological homeostasis of the fly’s midgut environment. PLOS Pathogens 2021, 17: e1009475. PMID: 34107000, PMCID: PMC8216540, DOI: 10.1371/journal.ppat.1009475.Peer-Reviewed Original ResearchConceptsGut lumenCurrent disease control methodsTsetse's PMMidgut environmentTsetse's abilityAbundant secretory proteinsPeritrophic matrixInfection outcomesTrypanosome infection prevalenceChemotherapeutic treatmentParatransgenic manipulationInfected peopleEtiological agentInfection prevalenceInfectionInfection establishmentParasitic African trypanosomesCardiaSignificant increaseNon-coding RNAsPhysiological homeostasisMolecular cascadesBlood digestionSmall non-coding RNAsParatransgenic tsetse
2020
Heterogeneity of midgut cells and their differential responses to blood meal ingestion by the mosquito, Aedes aegypti
Cui Y, Franz AWE. Heterogeneity of midgut cells and their differential responses to blood meal ingestion by the mosquito, Aedes aegypti. Insect Biochemistry And Molecular Biology 2020, 127: 103496. PMID: 33188922, PMCID: PMC7739889, DOI: 10.1016/j.ibmb.2020.103496.Peer-Reviewed Original ResearchConceptsIntestinal stem cellsBlood meal ingestionMosquito midgutSingle-nucleus RNA sequencingCell type clustersCell typesVisceral muscle cellsNutrient absorptionCell type compositionHuman pathogenic parasitesNumerous mosquito speciesEC-like cellsBlood meal digestionEnteroendocrine cellsAedes aegyptiBlood-feeding behaviorMeal ingestionCellular homeostasisCellular diversityGenetic compatibilityHematophagous insectsFemale midgutTranscriptional profilesBlood digestionRNA sequencing
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