Geographical Distribution of Selected and Putatively Neutral SNPs in Southeast Asian Malaria Parasites

doi:10.1093/molbev/msi235

MBE Advance Access originally published online on August 10, 2005
Molecular Biology and Evolution 2005 22(12):2362-2374; doi:10.1093/molbev/msi235

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Research Article

Geographical Distribution of Selected and Putatively Neutral SNPs in Southeast Asian Malaria Parasites

Tim J. C. Anderson^*, Shalini Nair^*, Dan Sudimack^*, Jeff T. Williams^*, Mayfong Mayxay^,, Paul N. Newton^,, Jean-Paul Guthmann^||, Frank M. Smithuis^¶, Tran Tinh Hien^#, Ingrid V.F. van den Broek^**, Nicholas J. White^, and François Nosten^,^,

^* Southwest Foundation for Biomedical Research, San Antonio, Texas; Faculty of Medical Sciences, National University of Laos, Vientiane, Lao PDR; Wellcome Trust-Mahosot-Oxford Tropical Medicine Research Collaboration, Mahosot Hospital, Vientiane, Lao PDR; Centre for Tropical Medicine and Vaccinology, Churchill Hospital, Oxford, United Kingdom; ^|| Epicentre (Médecins Sans Frontières-France), Paris, France; ^¶ Artsen Zonder Grenzen, Médecins Sans Frontières-Holland, Yangon, Myanmar; ^# Hospital for Tropical Diseases, Ho Chi Minh City, Vietnam; ^** Médecins Sans Frontières (UK), London, United Kingdom; Faculty of Tropical Medicine, Mahidol University, Bangkok, Thailand; and Shoklo Malaria Research Unit, Mae Sot, Tak, Thailand

E-mail: tanderso{at}darwin.sfbr.org.

Loci targeted by directional selection are expected to showelevated geographical population structure relative to neutralloci, and a flurry of recent papers have used this rationaleto search for genome regions involved in adaptation. Studiesof functional mutations that are known to be under selectionare particularly useful for assessing the utility of this approach.Antimalarial drug treatment regimes vary considerably betweencountries in Southeast Asia selecting for local adaptation atparasite loci underlying resistance. We compared the populationstructure revealed by 10 nonsynonymous mutations (nonsynonymoussingle-nucleotide polymorphisms [nsSNPs]) in four loci thatare known to be involved in antimalarial drug resistance, withpatterns revealed by 10 synonymous mutations (synonymous single-nucleotidepolymorphisms [sSNPs]) in housekeeping genes or genes of unknownfunction in 755 Plasmodium falciparum infections collected from13 populations in six Southeast Asian countries. Allele frequenciesat known nsSNPs underlying resistance varied markedly betweenlocations (F_ST = 0.18–0.66), with the highest frequencieson the Thailand-Burma border and the lowest frequencies in neighboringLao PDR. In contrast, we found weak but significant geographicstructure (F_ST = 0–0.14) for 8 of 10 sSNPs. Importantly,all 10 nsSNPs showed significantly higher F_ST (P < 8 x 10^–5)than simulated neutral expectations based on observed F_ST valuesin the putatively neutral sSNPs. This result was unaffectedby the methods used to estimate allele frequencies or the numberof populations used in the simulations. Given that dense single-nucleotidepolymorphism (SNP) maps and rapid SNP assay methods are nowavailable for P. falciparum, comparing genetic differentiationacross the genome may provide a valuable aid to identifyingparasite loci underlying local adaptation to drug treatmentregimes or other selective forces. However, the high proportionof polymorphic sites that appear to be under balancing selection(or linked to selected sites) in the P. falciparum genome violatesthe central assumption that selected sites are rare, which complicatesidentification of outlier loci, and suggests that caution isneeded when using this approach.

Key Words: Plasmodium falciparum • genetic structure • single-nucleotide polymorphism • local adaptation • drug resistance • pfcrt • pfmdr • dhfr • dhps

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