Abstract
BackgroundThe merozoite surface protein-3β of Plasmodium vivax (PvMSP-3β) is one of the candidate antigens for blood stage malaria vaccine development. The polymorphisms in PvMSP-3β have been reported in certain P. vivax isolates. However, the diversity of PvMSP-3β throughout its global distribution has not been well understood. In this study, the genetic diversity and the effects of natural selection in PvMSP-3β among P. vivax Korean isolates were analysed.MethodsBlood samples were collected from 95 patients with vivax malaria in Korea. The region flanking full-length PvMSP-3β was amplified by polymerase chain reaction and cloned into a TA cloning vector. The PvMSP-3β sequence of each isolate was determined and the polymorphic characteristics and effects of natural selection were analysed using the DNASTAR, MEGA4, and DnaSP programs.ResultsFive different subtypes of PvMSP-3β were identified based on single nucleotide polymorphisms (SNPs), insertions, and deletions. Although a high level of sequence diversity was observed in the PvMSP-3β gene, the coiled-coil tertiary structure of the PvMSP-3β protein was well conserved in all of the sequences. The PvMSP-3β of Korean isolates is under natural selection. DNA polymerase slippage and intragenic recombination likely contributed to PvMSP-3β diversity in Korean P. vivax isolates.ConclusionsThe PvMSP-3β of Korean P. vivax isolates displayed polymorphisms, with SNPs, insertions and deletions scattered throughout of the gene. These results of parasite heterogeneity are relevant to the development of a PvMSP-3β based vaccine against P. vivax and the implementation of malaria control programmes in Korea.
Highlights
The merozoite surface protein-3β of Plasmodium vivax (PvMSP-3β) is one of the candidate antigens for blood stage malaria vaccine development
Considering that sequence data for PvMSP3β from worldwide isolates are scant, further complicated studies of P. vivax isolates from different geographical areas are required to characterize patterns in PvMSP-3β polymorphisms on a global scale
Radical genetic polymorphism was identified in the Pv MSP-3β gene of Korean P. vivax isolates
Summary
The merozoite surface protein-3β of Plasmodium vivax (PvMSP-3β) is one of the candidate antigens for blood stage malaria vaccine development. The diversity of PvMSP-3β throughout its global distribution has not been well understood. The genetic diversity and the effects of natural selection in PvMSP-3β among P. vivax Korean isolates were analysed. Vivax malaria has re-emerged in many temperate regions. The population structures of P. falciparum isolates have been examined on a global scale, those of P. vivax remain largely less understood. With a global distribution that ranges from tropical to temperate regions, P. vivax isolates have exhibited variation in biological characteristics, such as relapse patterns and transmissibility, which can be used to distinguish geographical isolates and even subspecies [3]. Extensive genetic diversity has been identified within a local
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