Featured Publications
Properties and predicted functions of large genes and proteins of apicomplexan parasites
Fang T, Mohseni A, Lonardi S, Mamoun C. Properties and predicted functions of large genes and proteins of apicomplexan parasites. NAR Genomics And Bioinformatics 2024, 6: lqae032. PMID: 38584870, PMCID: PMC10993292, DOI: 10.1093/nargab/lqae032.Peer-Reviewed Original ResearchApicomplexan parasitesCausative agent of toxoplasmosisProtein sizeAgent of toxoplasmosisPathogen-host interactionsToxoplasma gondii</i>Conventional metabolic pathwaysCompact genomeEukaryotic organismsEncode proteinsEvolutionary constraintsNutrient acquisitionApicomplexan pathogensEvolutionary pressureAntigenic variationMetabolic pathwaysExpression patternsLarger proteinsParasitesCausative agentProteinGenesImmune evasionErythrocyte invasionPlasmodium falciparum</i>
2024
In vitro efficacy of next-generation dihydrotriazines and biguanides against babesiosis and malaria parasites
Vydyam P, Chand M, Gihaz S, Renard I, Heffernan G, Jacobus L, Jacobus D, Saionz K, Shah R, Shieh H, Terpinski J, Zhao W, Cornillot E, Mamoun C. In vitro efficacy of next-generation dihydrotriazines and biguanides against babesiosis and malaria parasites. Antimicrobial Agents And Chemotherapy 2024, 68: e00423-24. PMID: 39136469, PMCID: PMC11373198, DOI: 10.1128/aac.00423-24.Peer-Reviewed Original ResearchTherapeutic indexPlasmodium falciparum</i>Effective therapeutic strategyCausative agent of babesiosisIn vitro efficacyAntiparasitic drugsProtozoan parasitesMalaria parasitesIntraerythrocytic protozoan parasiteTherapeutic strategiesFolate pathwayBroad-spectrum antiparasitic drugStrain HB3Babesia divergensMalariaBabesia duncaniAnimal healthAntifolatesDrugWidespread resistanceCausative agentBiguanideBabesiaBabesiosisBiosynthesis of purines