2017
Chapter 14 Translation of Saliva Proteins Into Tools to Prevent Vector-Borne Disease Transmission
Narasimhan S, Schleicher T, Fikrig E. Chapter 14 Translation of Saliva Proteins Into Tools to Prevent Vector-Borne Disease Transmission. 2017, 249-300. DOI: 10.1016/b978-0-12-805360-7.00014-9.ChaptersPathogen transmissionArthropod vectorsVector-pathogen interactionsBlood mealVector salivaVector-Borne Disease TransmissionTransmit pathogensMolecular understandingHematophagous arthropodsHost immune responseMicrobesArthropodsImmune responseSalivary proteinsPathogensHostArthropod salivaMicroorganism transmission
2014
Antivirulence Properties of an Antifreeze Protein
Heisig M, Abraham NM, Liu L, Neelakanta G, Mattessich S, Sultana H, Shang Z, Ansari JM, Killiam C, Walker W, Cooley L, Flavell RA, Agaisse H, Fikrig E. Antivirulence Properties of an Antifreeze Protein. Cell Reports 2014, 9: 417-424. PMID: 25373896, PMCID: PMC4223805, DOI: 10.1016/j.celrep.2014.09.034.Peer-Reviewed Original ResearchConceptsAntifreeze proteinsDiverse bacteriaProtein bindsWild-type animalsBiofilm formationAntivirulence agentsIAFGPMethicillin-resistant Staphylococcus aureusHost controlProteinAntifreeze glycoproteinsIxodes scapularisAntivirulence propertiesBacteriaSeptic shockTherapeutic strategiesBacterial infectionsInfectious diseasesMicrobesStaphylococcus aureusFliesBindsInfectionCatheter tubingPathogensRole of the Vector in Arbovirus Transmission
Conway MJ, Colpitts TM, Fikrig E. Role of the Vector in Arbovirus Transmission. Annual Review Of Virology 2014, 1: 71-88. PMID: 26958715, PMCID: PMC7809425, DOI: 10.1146/annurev-virology-031413-085513.Peer-Reviewed Original ResearchDisease vectorsDominant lethal geneArbovirus transmissionTransmission of arbovirusesLethal genesMolecular detailsTransgenic mosquitoesHost-seeking behaviorMosquito populationsArboviral diseasesGenomicsProteomicsPrevalence of diseaseNovel strategyGenesArbovirusesMicrobesImmunological controlGrowthVectorDiseaseSignificant diseasePathogensHostRole
2007
Tick–host–pathogen interactions in Lyme borreliosis
Hovius JW, van Dam AP, Fikrig E. Tick–host–pathogen interactions in Lyme borreliosis. Trends In Parasitology 2007, 23: 434-438. PMID: 17656156, DOI: 10.1016/j.pt.2007.07.001.Peer-Reviewed Original ResearchConceptsVertebrate hostsB. burgdorferi survivalB. burgdorferi genesEnzootic life cycleSpirochete survivalGene productsB. burgdorferiArthropod vectorsGenesVector moleculesLife cycleDifferent environmentsHostBorrelia burgdorferiIxodes ticksTROSPATicksSpirochetal agentBurgdorferiLyme borreliosisMicrobesSalp15ExpressionSurvival
2000
Cutting Edge: Infection by the Agent of Human Granulocytic Ehrlichiosis Prevents the Respiratory Burst by Down-Regulating gp91phox
Banerjee R, Anguita J, Roos D, Fikrig E. Cutting Edge: Infection by the Agent of Human Granulocytic Ehrlichiosis Prevents the Respiratory Burst by Down-Regulating gp91phox. The Journal Of Immunology 2000, 164: 3946-3949. PMID: 10754283, DOI: 10.4049/jimmunol.164.8.3946.Peer-Reviewed Original ResearchConceptsHGE bacteriaNADPH oxidase enzyme complexHL-60 cellsNADPH oxidaseHuman granulocytic ehrlichiosisEnzyme complexPromyelocytic cell lineTick-borne pathogensInfected cellsCell linesOrganismsMRNA levelsGp91phox proteinRT-PCRDirect inhibitionBacteriaFACS analysisPathogensMRNA expressionOxidaseGenerate superoxide anionCellsRespiratory burstSplenic neutrophilsMicrobes