Featured Publications
Babesia duncani multi-omics identifies virulence factors and drug targets
Singh P, Lonardi S, Liang Q, Vydyam P, Khabirova E, Fang T, Gihaz S, Thekkiniath J, Munshi M, Abel S, Ciampossin L, Batugedara G, Gupta M, Lu X, Lenz T, Chakravarty S, Cornillot E, Hu Y, Ma W, Gonzalez L, Sánchez S, Estrada K, Sánchez-Flores A, Montero E, Harb O, Le Roch K, Mamoun C. Babesia duncani multi-omics identifies virulence factors and drug targets. Nature Microbiology 2023, 8: 845-859. PMID: 37055610, PMCID: PMC10159843, DOI: 10.1038/s41564-023-01360-8.Peer-Reviewed Original ResearchConceptsDrug targetsVirulence factorsCandidate virulence factorsRNA-seq dataIntraerythrocytic life cycleAttractive drug targetB. duncaniNuclear genomeGenome annotationApicomplexan parasitesApicomplexan pathogensEpigenetic profilesEpigenetic analysisParasite metabolismMalaria-like diseaseHuman erythrocytesLife cycle stagesBabesia speciesGenomeMetabolic requirementsCycle stagesLife cycleBiologySmall moleculesPotent inhibitor
2019
Comparative 3D genome organization in apicomplexan parasites
Bunnik EM, Venkat A, Shao J, McGovern KE, Batugedara G, Worth D, Prudhomme J, Lapp SA, Andolina C, Ross LS, Lawres L, Brady D, Sinnis P, Nosten F, Fidock DA, Wilson EH, Tewari R, Galinski MR, Ben Mamoun C, Ay F, Le Roch KG. Comparative 3D genome organization in apicomplexan parasites. Proceedings Of The National Academy Of Sciences Of The United States Of America 2019, 116: 3183-3192. PMID: 30723152, PMCID: PMC6386730, DOI: 10.1073/pnas.1810815116.Peer-Reviewed Original ResearchConceptsGenome organizationGene expressionApicomplexan parasitesVirulence genesSpatial genome organizationPositioning of chromosomesRelated apicomplexan parasitesVirulence gene clusterClustering of centromeresHi-C experimentsStrong repressive effectHuman malaria parasiteChromosome foldingEukaryotic cellsGene familyGene clusterGenome modelGenomeGene clusteringMore virulent pathogensNuclear spaceRepressive effectGenesAntigenic variationVirulent pathogens
2012
Sequencing of the smallest Apicomplexan genome from the human pathogen Babesia microti†
Cornillot E, Hadj-Kaddour K, Dassouli A, Noel B, Ranwez V, Vacherie B, Augagneur Y, Brès V, Duclos A, Randazzo S, Carcy B, Debierre-Grockiego F, Delbecq S, Moubri-Ménage K, Shams-Eldin H, Usmani-Brown S, Bringaud F, Wincker P, Vivarès CP, Schwarz RT, Schetters TP, Krause PJ, Gorenflot A, Berry V, Barbe V, Mamoun C. Sequencing of the smallest Apicomplexan genome from the human pathogen Babesia microti†. Nucleic Acids Research 2012, 40: 9102-9114. PMID: 22833609, PMCID: PMC3467087, DOI: 10.1093/nar/gks700.Peer-Reviewed Original ResearchConceptsGenome-wide phylogenetic analysisLateral transfer eventsSmallest nuclear genomesGenome-scale reconstructionB. microtiMinimal metabolic requirementsApicomplexan genomesMitochondrial genomeNuclear genomeProtozoan parasitismMultigene familyApicomplexan parasitesPhylum ApicomplexaPhylogenetic analysisNew cladeGenomeGenomic sequencingCopy numberTransfer eventsApicomplexaMetabolic requirementsBabesia microtiSequencingSpeciesProtozoa