Discover how sickle cell trait provides protection against malaria through oxygen-dependent mechanisms in red blood cells.
Discover how whole genome sequencing is revolutionizing our understanding of Plasmodium vivax, the world's second most common malaria parasite, and its genetic adaptations.
Discover how platelets, beyond their clotting function, serve as frontline warriors in the immune system's battle against malaria infection.
Discover how two-carbon-linked artemisinin-derived trioxane dimers are transforming malaria treatment with enhanced stability and efficacy against resistant strains.
Exploring the groundbreaking work of PARSA in combating parasitic diseases through innovative research and One Health approaches in Southern Africa.
Exploring how gene chip technology is transforming parasitology research, from malaria epigenetics to organ-on-chip models for parasite studies.