2021
Evolutionary Insights into the Microneme-Secreted, Chitinase-Containing High-Molecular-Weight Protein Complexes Involved in Plasmodium Invasion of the Mosquito Midgut
Kaur H, Pacheco MA, Garber L, Escalante AA, Vinetz JM. Evolutionary Insights into the Microneme-Secreted, Chitinase-Containing High-Molecular-Weight Protein Complexes Involved in Plasmodium Invasion of the Mosquito Midgut. Infection And Immunity 2021, 90: e00314-21. PMID: 34606368, PMCID: PMC8788677, DOI: 10.1128/iai.00314-21.Peer-Reviewed Original ResearchConceptsPeritrophic matrixMosquito midgutNew genomic insightsWeight protein complexesHigh-resolution structural modelingDomain-related proteinEvolutionary insightsInvasion machineryGenomic insightsMicronemal proteinsProtein complexesThree-dimensional structureMosquito interactionsGenomic dataPlasmodium invasionProteolytic milieuMidgut epitheliumWeight complexesAdhesive proteinsOokinetesGeneral mechanismProteinChitinasesMidgutChitinase
2010
Apical Surface Expression of Aspartic Protease Plasmepsin 4, a Potential Transmission-blocking Target of the Plasmodium Ookinete*
Li F, Patra KP, Yowell CA, Dame JB, Chin K, Vinetz JM. Apical Surface Expression of Aspartic Protease Plasmepsin 4, a Potential Transmission-blocking Target of the Plasmodium Ookinete*. Journal Of Biological Chemistry 2010, 285: 8076-8083. PMID: 20056606, PMCID: PMC2832958, DOI: 10.1074/jbc.m109.063388.Peer-Reviewed Original ResearchConceptsPlasmepsin 4Midgut invasionAspartic proteasesDigestive vacuoleMidgut peritrophic matrixApical surface expressionChitin-binding proteinsMass spectrometry sequencingMalaria parasitesPeritrophic matrixPlasmodium invasionAspartic protease inhibitorsPlasmodium ookinetesParasite infectivityApical surfaceDefinitive hostsMechanistic roleAffinity columnBlood-stage PlasmodiumSurface expressionCalpain inhibitorsMidgut basal laminaProteinVaccine targetsVacuoles