, a malaria parasite of Old World macaque monkeys, is used extensively to model biology. Recently, was found in the human population of Southeast Asia, particularly Malaysia. causes uncomplicated to severe and fatal malaria in the human host with features in common with the more prevalent and virulent malaria caused by . As such, presents a unique opportunity to develop experimental translational model systems for malaria pathophysiology informed by clinical data from same-species human infections. Experimental lines of represent well-characterized genetically stable parasites, and to maximize their utility as a backdrop for understanding malaria pathophysiology, genetically diverse contemporary clinical isolates, essentially wild-type, require comparable characterization. The Oxford Nanopore PCR-free long-read sequencing platform was used to sequence and assemble genomes from frozen clinical samples. The sequencing platform and assembly pipelines were designed to facilitate capturing data and describing, for the first time, () and () multiple gene families in parasites acquired from nature. The gene family members code for antigenically variant proteins analogous to the virulence-associated erythrocyte membrane protein () multiple gene family. Evidence presented here suggests that the family members have arisen through a process of gene duplication, selection pressure, and variation. Highly evolving genes including family members tend to be restricted to relatively unstable sub-telomeric regions that drive change with core genes protected in genetically stable intrachromosomal locations. The comparable and gene family members are counter-intuitively located across chromosomes. Here, we demonstrate that, in contrast to conserved core genes, and genes occupy otherwise gene-sparse chromosomal locations that accommodate rapid evolution and change. The novel methods presented here offer the malaria research community not only new tools to generate comprehensive genome sequence data from small clinical samples but also new insight into the complexity of clinically important real-world parasites.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9169567PMC
http://dx.doi.org/10.3389/fgene.2022.855052DOI Listing

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