Abstract
What genes determine growth and nutrient utilization in asexual blood-stage malaria parasites? Competition experiments between a lab-adapted African parasite (NF54), and a recently isolated Asian parasite (NHP4026) reveal contrasting outcomes in different media: NF54 outcompetes NHP4026 in media containing human serum, while NHP4026 outcompetes NF54 in media containing AlbuMAX, a lipid-rich bovine serum formulation. We conducted parasite genetic crosses and compared genome-wide allele frequency changes in progeny populations cultured in media containing serum or AlbuMAX: this bulk segregant analysis (BSA) reveals three quantitative trait loci (QTL) underlying differential growth. The strongest QTL (chromosome 13) contains EBA-140: competition experiments between EBA-140-knockout and isogenic wildtype parasites showed fitness reversals in the two media types, validating this locus as the causative gene. These results (i) demonstrate the effectiveness of BSA for dissecting fitness traits in Plasmodium falciparum, and (ii) reveal an intimate link between red blood cell invasion and nutrient composition of growth media.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Title has been changed New results added: Figure 1 now shows competitive growth phenotypes of the two parents used in the genetic crosses described. Figure 6 now shows validation experiments for one of the QTLs identified. Extensive changes to the results and discussion reflect new results obtained
