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1.
J Infect Dis ; 211(7): 1087-96, 2015 Apr 01.
Article in English | MEDLINE | ID: mdl-25336725

ABSTRACT

Identifying the source of resurgent parasites is paramount to a strategic, successful intervention for malaria elimination. Although the malaria incidence in Panama is low, a recent outbreak resulted in a 6-fold increase in reported cases. We hypothesized that parasites sampled from this epidemic might be related and exhibit a clonal population structure. We tested the genetic relatedness of parasites, using informative single-nucleotide polymorphisms and drug resistance loci. We found that parasites were clustered into 3 clonal subpopulations and were related to parasites from Colombia. Two clusters of Panamanian parasites shared identical drug resistance haplotypes, and all clusters shared a chloroquine-resistance genotype matching the pfcrt haplotype of Colombian origin. Our findings suggest these resurgent parasite populations are highly clonal and that the high clonality likely resulted from epidemic expansion of imported or vestigial cases. Malaria outbreak investigations that use genetic tools can illuminate potential sources of epidemic malaria and guide strategies to prevent further resurgence in areas where malaria has been eliminated.


Subject(s)
Antimalarials/pharmacology , Chloroquine/pharmacology , Disease Outbreaks , Drug Resistance/genetics , Malaria, Falciparum/epidemiology , Plasmodium falciparum/isolation & purification , Adolescent , Adult , Aged , Child , Child, Preschool , Cluster Analysis , Colombia , DNA Barcoding, Taxonomic , Female , Genetic Loci/genetics , Haplotypes , Humans , Malaria, Falciparum/parasitology , Male , Middle Aged , Panama/epidemiology , Plasmodium falciparum/drug effects , Plasmodium falciparum/genetics , Polymorphism, Single Nucleotide , Protozoan Proteins/genetics , Young Adult
2.
Sunderland; Sinauer; 4th ed; 2007. 652 p. ilus.
Monography in English | Coleciona SUS | ID: biblio-931883
3.
J Infect Dis ; 195(8): 1218-26, 2007 Apr 15.
Article in English | MEDLINE | ID: mdl-17357061

ABSTRACT

Understanding the genetic structure of malaria parasites is essential to predict how fast some phenotypes of interest originate and spread in populations. In the present study, we used highly polymorphic microsatellite markers to analyze 74 Plasmodium vivax isolates, which we collected in cross-sectional and longitudinal surveys performed in an area of low malaria endemicity in Brazilian Amazonia, and to explore the transmission dynamics of genetically diverse haplotypes or strains. P. vivax populations are more diverse and more frequently comprise multiple-clone infections than do sympatric Plasmodium falciparum isolates, but these features paradoxically coexist with high levels of inbreeding, leading to significant multilocus linkage disequilibrium. Moreover, the high rates of microsatellite haplotype replacement that we found during 15 months of follow-up most likely do not result from strong diversifying selection. We conclude that the small-area genetic diversity in P. vivax populations under low-level transmission is not severely constrained by the low rates of effective meiotic recombination, with clear public health implications.


Subject(s)
Genetic Variation , Malaria, Vivax/transmission , Microsatellite Repeats/genetics , Plasmodium vivax/genetics , Animals , Brazil/epidemiology , Cross-Sectional Studies , Haplotypes , Humans , Linkage Disequilibrium/genetics , Longitudinal Studies , Malaria, Vivax/epidemiology , Plasmodium vivax/classification , Plasmodium vivax/pathogenicity , Polymorphism, Genetic , Rural Population , Time Factors
4.
Nat Genet ; 39(1): 113-9, 2007 Jan.
Article in English | MEDLINE | ID: mdl-17159979

ABSTRACT

Genetic variation allows the malaria parasite Plasmodium falciparum to overcome chemotherapeutic agents, vaccines and vector control strategies and remain a leading cause of global morbidity and mortality. Here we describe an initial survey of genetic variation across the P. falciparum genome. We performed extensive sequencing of 16 geographically diverse parasites and identified 46,937 SNPs, demonstrating rich diversity among P. falciparum parasites (pi = 1.16 x 10(-3)) and strong correlation with gene function. We identified multiple regions with signatures of selective sweeps in drug-resistant parasites, including a previously unidentified 160-kb region with extremely low polymorphism in pyrimethamine-resistant parasites. We further characterized 54 worldwide isolates by genotyping SNPs across 20 genomic regions. These data begin to define population structure among African, Asian and American groups and illustrate the degree of linkage disequilibrium, which extends over relatively short distances in African parasites but over longer distances in Asian parasites. We provide an initial map of genetic diversity in P. falciparum and demonstrate its potential utility in identifying genes subject to recent natural selection and in understanding the population genetics of this parasite.


Subject(s)
Chromosome Mapping/methods , Genetic Variation , Genome, Protozoan , Plasmodium falciparum/genetics , Africa , Animals , Asia , Central America , Genotype , Humans , Phylogeny , Polymorphism, Single Nucleotide , South America
5.
Exp Parasitol ; 115(1): 32-40, 2007 Jan.
Article in English | MEDLINE | ID: mdl-16797008

ABSTRACT

We examined patterns and putative mechanisms of sequence diversification in the merozoite surface protein-2 (MSP-2) of Plasmodium falciparum, a major dimorphic malaria vaccine candidate antigen, by analyzing 448 msp-2 alleles from all continents. We describe several nucleotide replacements, insertion and deletion events, frameshift mutations, and proliferations of repeat units that generate the extraordinary diversity found in msp-2 alleles. We discuss the role of positive selection exerted by naturally acquired type- and variant-specific immunity in maintaining the observed levels of polymorphism and suggest that this is the most likely explanation for the significant excess of nonsynonymous nucleotide replacements found in dimorphic msp-2 domains. Hybrid sequences created by meiotic recombination between alleles of different dimorphic types were observed in few (3.1%) isolates, mostly from Africa. We found no evidence for an extremely ancient origin of allelic dimorphism at the msp-2 locus, predating P. falciparum speciation, in contrast with recent findings for other surface malarial antigens.


Subject(s)
Antigens, Protozoan/genetics , Evolution, Molecular , Genetic Variation , Malaria Vaccines/genetics , Plasmodium falciparum/genetics , Protozoan Proteins/genetics , Alleles , Amino Acid Sequence , Animals , Antigens, Protozoan/immunology , Base Sequence , DNA, Protozoan/chemistry , Molecular Sequence Data , Plasmodium falciparum/immunology , Polymorphism, Genetic , Protozoan Proteins/immunology , Recombination, Genetic , Repetitive Sequences, Nucleic Acid , Sequence Alignment
6.
Sunderland; Sinauer Association; 4th ed; 2007. 652 p.
Monography in English | LILACS, Coleciona SUS | ID: biblio-940985
7.
Sunderland; Sinauer Association; 4th ed; 2007. 652 p.
Monography in English | LILACS | ID: lil-760644
8.
Sunderland; Sinauer; 3rd ed; 2000. 221 p.
Monography in English | LILACS, Coleciona SUS | ID: biblio-940968
9.
Sunderland; Sinauer; 3rd ed; 2000. 221 p.
Monography in English | LILACS | ID: lil-760632
10.
Sunderland; Sinauer; 3rd ed; 1997. 542 p. ilus.
Monography in English | Coleciona SUS | ID: biblio-937658

ABSTRACT

Introducing the principles of genetics and statistics relevant to population studies, and examining the forces affecting genetic variation from the molecular to the organismic level. This book is integrated with descriptions of molecular and other methods used to study natural populations. This work gives a presentation of theory and observation for students at the undergraduate and graduate level. It introduces the principles of genetics and statistics that are relevant to population studies, and examines the forces affecting genetic variation from the molecular to the organismic level. Integrated throughout the book are descriptions of molecular and other methods used to study natural populations as well as theory using actual data. Applications of the principles discussed are illustrated by worked examples


Subject(s)
Genetics , Genetics, Population/methods
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