Characterisation of parasite cell proteomes

Apicomplexan pathogens are highly-adapted intracellular parasites of humans causing disease including malaria, toxoplasmosis and cryptosporidiosis. These parasites actively confront, subvert and defend themselves against host immune attack using a complex suite of parasite surface and secreted proteins that hijack immune signalling pathways. Moreover, transmission and generation of genetic novelty occurs in definitive hosts where differentiation into sexual parasite forms occurs. Relatively little is known, however, of the molecules and processes that drive these events, particularly during the sexual stages of parasite development. This project will use new methods in in vitro culture of sexual development in Toxoplasma, advanced methods for global spatial characterisation of parasite cell proteomes in order to identify specific proteins thought to be implicated in these interactions, and then utilise CRISPR/cas9 mutagenesis tools to engineer pools of strains deficient in these specific proteins. By assaying mutant pools both in vitro, and through the definitive host we will identify proteins and processes required for sexual stage conversion.