Low Nucleotide Diversity Of The Plasmodium Falciparum AP2 EXP2 Gene Among Clinical Samples From Ghana

Abstract

Background PfAP2-EXP2 is located within chromosome 6 of Plasmodium falciparum recently identified to be under‑ going an extensive selective sweep in West African isolates. The gene encoding this transcription factor, PfAP2-EXP2, is essential and thus likely subject to purifying selection that limits variants in the parasite population despite its genomic location. Methods 72 Plasmodium falciparum field samples and 801 clinical sequences from the Pf6 MalariaGEN dataset of Ghanaian origin, were integrated and analysed. Results A total of 14 single nucleotide variants of which 5 were missense variants, were identified after quality checks and filtering. Except for one, all identified variants were rare among the clinical samples obtained in this study (Minor allelic frequency<0.01). Further results revealed a considerably low dN/dS value (0.208) suggesting the presence of purifying selection. Further, all the mutant amino acids were wildtype residues in AP2-EXP2 orthologous proteins— tentatively suggesting a genus-level conservation of amino acid residues. Computational analysis and predictions corroborated these findings. Conclusions Despite the recent extensive selective sweep within chromosome 6 of West African isolates, PfAP2 EXP2 of Ghanaian origin exhibits low nucleotide diversity and very low dN/dS consistent with purifying selection acting to maintain the function of an essential gene. The conservation of AP2-EXP2 is an important factor that makes it a potential drug target.