Research Articles
Unlocking Our Defenses: How Repeated Malaria Infections Teach the Body to Fight Back
Exploring how repeated malaria infections develop immunity through controlled human studies and the implications for vaccine development.
Metabolic Blueprints: Outsmarting Malaria by Mapping the Parasite's Hidden Weaknesses
How scientists are using metabolic roadmaps to discover new drugs against the malaria parasite Plasmodium falciparum.
The Invisible Shield: How a Mosquito's Gut Lining Shapes Malaria Transmission
Discover how the peritrophic matrix, gut bacteria, and red blood cells interact to determine malaria transmission success in mosquitoes.
How a Stealth Protein Lets Malaria Parasites Evade Mosquito Defenses
Discover how the P47 protein enables malaria parasites to evade mosquito immune defenses through groundbreaking research on Plasmodium berghei.
The Hidden Reservoir: Unmasking Submicroscopic Malaria Infections
Exploring the hidden world of submicroscopic malaria infections and their impact on global malaria control efforts.
Comparison of PfHRP-2/pLDH ELISA, qPCR and Microscopy for Malaria Detection
A comprehensive study comparing PfHRP-2/pLDH ELISA, qPCR and Microscopy for detecting Plasmodium events and predicting sick visits during malaria vaccine trials.
The Parasite's Secret Clock: Unlocking the Replication Rhythm of a Malaria Killer
Discover the groundbreaking research revealing the periodic DNA synthesis in Plasmodium knowlesi, the malaria parasite, and its implications for drug development.
Malaria's Molecular Master Key: Cracking the Code of a Stealthy Parasite
Scientists are mapping the secret weapon Plasmodium falciparum uses to hide from our immune system, bringing us one step closer to outsmarting a deadly foe.
The Malaria Parasite's Secret Menu: A Taste for Human Proteins
Discover how Plasmodium falciparum selectively consumes human serum proteins to fuel its growth and increase virulence in malaria infections.
Cracking the Malaria Parasite's Code: A Genetic Tool for Future Cures
Discover how the piggyBac transposon system combined with next-generation sequencing is revolutionizing malaria research by identifying essential parasite genes.