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Single cell analyses of non-human primates infected with one or two strains of Plasmodium vivax provide insights on the origin of polyclonality in patients and reveal an important population bottleneck occurring during pre-erythrocytic development.
This work describes an informatic framework to identify multi-allelic markers in the genome of the malaria-causing Plasmodium vivax parasite that can inform on familial relatedness between infections. Spatial and temporal transmission patterns are demonstrated with an example marker set.
A genome-wide CRISPR-based screen of Toxoplasma gondii during mouse infection reveals previously uncharacterized factors contributing to parasite virulence.
Guan et al. identify a male gametocyte-specific RNA-binding protein RBPm1 in the malaria parasite. RBPm1 controls the intron splicing of axonemal genes. RBPm1- deficient parasites fail to assemble the axoneme for male gametogenesis and thus mosquito transmission of Plasmodium.