Abstract
BackgroundThe current trend of Plasmodium vivax cases imported from Southeast Asia into China has sharply increased recently, especially from the China–Myanmar border (CMB) area. High recombination rates of P. vivax populations associated with varied transmission intensity might cause distinct local selective pressures. The information on the genetic variability of P. vivax in this area is scant. Hence, this study assessed the genetic diversity of P. vivax genome sequence in CMB area and aimed to provide information on the positive selection of new gene loci.ResultsThis study reports a genome-wide survey of P. vivax in CMB area, using blood samples from local patients to identify population-specific selective processes. The result showed that considerable genetic diversity and mean pair-wise divergence among the sequenced P. vivax isolates were higher in some important gene families. Using the standardized integrated haplotype score (|iHS|) for all SNPs in chromosomal regions with SNPs above the top 1% distribution, it was observed that the top score locus involved 356 genes and most of them are associated with red blood cell invasion and immune evasion. The XP-EHH test was also applied and some important genes associated with anti-malarial drug resistance were observed in high positive scores list. This result suggests that P. vivax in CMB area is facing more pressure to survive than any other region and this has led to the strong positive selection of genes that are associated with host-parasite interactions.ConclusionsThis study suggests that greater genetic diversity in P. vivax from CMB area and positive selection signals in invasion and drug resistance genes are consistent with the history of drug use during malaria elimination programme in CMB area. Furthermore, this result also demonstrates that haplotype-based detecting selection can assist the genome-wide methods to identify the determinants of P. vivax diversity.
Highlights
The current trend of Plasmodium vivax cases imported from Southeast Asia into China has sharply increased recently, especially from the China–Myanmar border (CMB) area
The same method was used to sequence the clinical isolates of P. vivax genome sequence obtained in the China–Myanmar border area
Among hundreds of samples collected from CMB area, only six sequenced results were good enough for the standard and provided enough coverage so far
Summary
The current trend of Plasmodium vivax cases imported from Southeast Asia into China has sharply increased recently, especially from the China–Myanmar border (CMB) area. The information on the genetic variability of P. vivax in this area is scant. This study assessed the genetic diversity of P. vivax genome sequence in CMB area and aimed to provide information on the positive selection of new gene loci. The genetic diversity and evolutionary plasticity of Plasmodium vivax constitute major obstacles for malaria elimination. Several P. vivax isolates genome sequencing projects were completed recently [7, 8], but information is scant about the genetic variability in China–Myanmar border (CMB) area. The lack of reliable and adequate information on the genetic variability of P. vivax genome
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