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Structure of the <i>Plasmodium</i> -interspersed repeat proteins of the malaria parasite

Thomas E. Harrison, Adam J. Reid, Deirdre Cunningham, Jean Langhorne, Matthew K. Higgins

2020Proceedings of the National Academy of Sciences17 citationsDOIOpen Access PDF

Abstract

Significance The Plasmodium parasites that cause malaria replicate within blood cells of an infected host. These parasites send a small number of proteins to infected blood cell surfaces, allowing them to bind host molecules but also risking their detection by the host immune system. These proteins have diversified into large families, allowing the parasite to avoid detection by using antigenic variation. The most ubiquitous of these families is the Plasmodium -interspersed repeat (PIR) protein family. Here we present the structure of a PIR protein, revealing the architecture of its ectodomain and showing how it has diversified. Finally, we use structure-guided methods to understand which small variant surface antigen families are PIRs and to understand their evolution across malaria parasites.

Topics & Concepts

MalariaBiologyPlasmodium (life cycle)EctodomainParasite hostingAntigenic variationPlasmodium falciparumVirologyHost (biology)Immune systemAntigenComputational biologyGeneticsImmunologyComputer scienceWorld Wide WebReceptorMalaria Research and ControlMosquito-borne diseases and controlTrypanosoma species research and implications
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