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Whole-genome analysis of Malawian Plasmodium falciparum isolates identifies possible targets of allele-specific immunity to clinical malaria

Zalak Shah, Myo Naung, Kara A. Moser, Matthew Adams, Andrea G. Buchwald, Ankit Dwivedi, Amed Ouattara, Karl B. Seydel, Don P. Mathanga, Alyssa E. Barry, David Serre, Miriam K. Laufer, Joana C. Silva, Shannon Takala‐Harrison

2021PLoS Genetics17 citationsDOIOpen Access PDF

Abstract

Individuals acquire immunity to clinical malaria after repeated Plasmodium falciparum infections. Immunity to disease is thought to reflect the acquisition of a repertoire of responses to multiple alleles in diverse parasite antigens. In previous studies, we identified polymorphic sites within individual antigens that are associated with parasite immune evasion by examining antigen allele dynamics in individuals followed longitudinally. Here we expand this approach by analyzing genome-wide polymorphisms using whole genome sequence data from 140 parasite isolates representing malaria cases from a longitudinal study in Malawi and identify 25 genes that encode possible targets of naturally acquired immunity that should be validated immunologically and further characterized for their potential as vaccine candidates.

Topics & Concepts

BiologyPlasmodium falciparumMalariaImmunityGenomeGeneticsAlleleVirologyParasite hostingMalaria vaccineAntigenGeneImmune systemImmunologyComputer scienceWorld Wide WebMalaria Research and ControlMosquito-borne diseases and controlvaccines and immunoinformatics approaches
Whole-genome analysis of Malawian Plasmodium falciparum isolates identifies possible targets of allele-specific immunity to clinical malaria | Litcius