Abstract
Despite a significant decline in Senegal, malaria remains a burden in various parts of the country. Assessment of multiplicity of Plasmodium falciparum infection and genetic diversity of parasites population could help in monitoring of malaria control. To assess genetic diversity and multiplicity of infection in P. falciparum isolates from three areas in Senegal with different malaria transmissions. 136 blood samples were collected from patients with uncomplicated P. falciparum malaria in Pikine, Kedougou and Thies. Polymorphic loci of msp1 and 2 (Merozoite surface protein-1 and 2) genes were amplified by nested PCR. For msp1gene, K1 allelic family was predominant with frequency of 71%. Concerning msp2 gene, IC3D7 allelic family was the most represented with frequency of 83%. Multiclonal isolates found were 36% and 31% for msp1et msp2 genes respectively. The MOI found in all areas was 2.56 and was statistically different between areas (P=0.024). Low to intermediate genetic diversity were found with heterozygosity range (He=0,394-0,637) and low genetic differentiation (Fst msp1= 0.011; Fst msp2=0.017) were observed between P. falciparum population within the country. Low to moderate genetic diversity of P.falciparum strains and MOI disparities were found in Senegal.
Highlights
Despite a significant decline in Senegal, malaria remains a burden in various parts of the country
This study aimed to investigate the genetic diversity and the multiplicity of P. falciparum infection of circulating parasites strains from three areas in Senegal having different endemicities by genotyping the highly polymorphic loci of msp[1] and msp[2] genes
The present study aimed to provide a current overview on P. falciparum population structure in Senegal by analyzing the most polymorphic regions of msp[1] and msp[2] genes on isolates from areas presenting different malaria transmission patterns
Summary
Despite a significant decline in Senegal, malaria remains a burden in various parts of the country. Assessment of multiplicity of Plasmodium falciparum infection and genetic diversity of parasites population could help in monitoring of malaria control. Objective: To assess genetic diversity and multiplicity of infection in P. falciparum isolates from three areas in Senegal with different malaria transmissions. Genetic polymorphism of Merozoite Surface Protein 1 (msp1) and 2 (msp2) genes and multiplicity of Plasmodium falciparum infection across various endemic areas in Senegal. Assessment of genetic diversity and multiplicity of infection (MOI) provide insight on malaria transmission and genetic differentiation measurements such as heterozygosity (He) and fixation index (Fst) which are important data in monitoring of malaria control and elimination strategies[4,6,7,8,9,10]
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