Last Updated: 28/05/2025

Genetic polymorphism and diversity of Plasmodium vivax malaria

Objectives

This study proposes an in-depth analysis, including identification of single nucleotide polymorphisms (SNPs), in a 300 kb segment within the P.vivax genome by PCR-based sequencing of this region in 4 P.vivax strains with different geographical origins.

Comparative genomic analysis together with the corresponding sequence in P. knowlesi, a closely related species to P. vivax, is planned in addition to genotyping studies enabling the analysis of genome-wide microsatellite (MS) polymorphism and both MS and single nucleotide polymorphisms within the targeted region (300 kb) of a chromosome in patient isolates from varying geographical regions. This would enable the understanding of natural variation, population structure, genetic diversity and polymorphism, including the range of allele frequency spectrum and the patterns of linkage disequilibrium in recently archived field parasite isolates representing the global malaria endemic zones, which in turn would enable better understanding of the biology, population genetics and evolutionary history of this neglected parasite species.

Principal Institution

Harvard T.H. Chan School of Public Health (HSPH), United States

Principal Investigators / Focal Persons

Dyann Wirth

Partner Institutions

University of Colombo, Sri Lanka

Rationale and Abstract

Malaria is considered as one of the most devastating global health problems due to the high morbidity and mortality it causes in the tropical parts of the world where it is endemic. Out of the 4 species that cause malaria in humans Plasmodium vivax is the most prevalent species outside tropical Africa. Although rarely fatal, P.vivax causes debilitating disease that severely affects the quality of life and economic productivity of the victims. P.vivax genome sequence based on the the SAL-1 strain of P.vivax is almost complete and is available to the public (http:www.tigr.org/tdb/e2k1/pva1/). However, it does not provide any information on the genetic diversity or polymorphism of this parasite. Genetic variation is central to the pathogenesis of an organism and has significantly impeded progress towards the development of an effective malaria vaccine. Thus, assessment of genetic diversity among parasite populations as proposed in this study has significant relevance for better understanding of its biology, for the development of strategies of disease control and to make valid estimations with regard to its origin. Malaria is one of the most important public health problems in many parts of world due to the high morbidity and mortality it causes, especially in young children. A better understanding of the genetic structure and its changes in the causative parasite, the objective of this proposed study, would enable the development of effective control strategies to combat this devastating disease that mostly affect the poor communities in the developing world.

Project Outputs

BMC Genet. 2010; Single-nucleotide polymorphism, linkage disequilibrium and geographic structure in the malaria parasite Plasmodium vivax

External reference

NIH Reporter - Project details

Themes

Genetics and Genomics
P. vivax

Date

Jun 2007 — Apr 2012

Total Project Funding

$118,000

Funding Details

Fogarty International Center (FIC), National Institute of Health (NIH), United States