Deakin University
Browse

File(s) under permanent embargo

Population genomics studies identify signatures of global dispersal and drug resistance in Plasmodium vivax

Version 3 2024-06-14, 07:17
Version 2 2024-06-05, 04:00
Version 1 2020-05-11, 12:36
journal contribution
posted on 2024-06-14, 07:17 authored by DN Hupalo, Z Luo, A Melnikov, PL Sutton, P Rogov, A Escalante, AF Vallejo, S Herrera, M Arévalo-Herrera, Q Fan, Y Wang, L Cui, CM Lucas, S Durand, JF Sanchez, G Christian Baldeviano, AG Lescano, M Laman, C Barnadas, Alyssa BarryAlyssa Barry, I Mueller, JW Kazura, A Eapen, D Kanagaraj, N Valecha, MU Ferreira, W Roobsoong, W Nguitragool, J Sattabonkot, D Gamboa, M Kosek, JM Vinetz, L González-Cerón, BW Birren, DE Neafsey, JM Carlton
© 2016 Nature America, Inc. All rights reserved. Plasmodium vivax is a major public health burden, responsible for the majority of malaria infections outside Africa. We explored the impact of demographic history and selective pressures on the P. vivax genome by sequencing 182 clinical isolates sampled from 11 countries across the globe, using hybrid selection to overcome human DNA contamination. We confirmed previous reports of high genomic diversity in P. vivax relative to the more virulent Plasmodium falciparum species; regional populations of P. vivax exhibited greater diversity than the global P. falciparum population, indicating a large and/or stable population. Signals of natural selection suggest that P. vivax is evolving in response to antimalarial drugs and is adapting to regional differences in the human host and the mosquito vector. These findings underline the variable epidemiology of this parasite species and highlight the breadth of approaches that may be required to eliminate P. vivax globally.

History

Journal

Nature Genetics

Volume

48

Pagination

953-958

Location

United States

ISSN

1061-4036

eISSN

1546-1718

Language

English

Publication classification

C1 Refereed article in a scholarly journal

Issue

8

Publisher

NATURE PUBLISHING GROUP