恶性疟原虫的 CyRPA 糖结合不能解释对人类的适应。

IF 3.2 2区生物学 Q2 EVOLUTIONARY BIOLOGY

Genome Biology and Evolution Pub Date : 2025-01-27 DOI:10.1093/gbe/evaf016

Paul M Sharp, Frederic Bibollet-Ruche, Beatrice H Hahn

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Plasmodium falciparum CyRPA glycan binding does not explain adaptation to humans.

The human malaria parasite Plasmodium falciparum evolved from a parasite that infects gorillas, termed Plasmodium praefalciparum. The sialic acids on glycans on the surface of erythrocytes differ between humans and other apes. It has recently been shown that the P. falciparum cysteine-rich protective antigen (PfCyRPA) binds human sialoglycans as an essential step in the erythrocyte invasion pathway, while that of the chimpanzee parasite Plasmodium reichenowi has affinities matching ape glycans. Two amino acid changes, at sites 154 and 209, were shown to be sufficient to switch glycan binding preferences and inferred to reflect adaptation of P. falciparum to humans. However, we show that sites 154 and 209 are identical in P. falciparum and P. praefalciparum, with no other differences located in or near the CyRPA glycan binding sites. Thus, the gorilla precursor appears to have already been preadapted to bind human sialoglycans.

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来源期刊

Genome Biology and Evolution EVOLUTIONARY BIOLOGY-GENETICS & HEREDITY

CiteScore

5.80

自引率

6.10%

发文量

169

审稿时长

1 months

期刊介绍： About the journal Genome Biology and Evolution (GBE) publishes leading original research at the interface between evolutionary biology and genomics. Papers considered for publication report novel evolutionary findings that concern natural genome diversity, population genomics, the structure, function, organisation and expression of genomes, comparative genomics, proteomics, and environmental genomic interactions. Major evolutionary insights from the fields of computational biology, structural biology, developmental biology, and cell biology are also considered, as are theoretical advances in the field of genome evolution. GBE’s scope embraces genome-wide evolutionary investigations at all taxonomic levels and for all forms of life — within populations or across domains. Its aims are to further the understanding of genomes in their evolutionary context and further the understanding of evolution from a genome-wide perspective.