| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2823034 | Infection, Genetics and Evolution | 2015 | 9 Pages |
•We estimated the levels of genetic diversity in six Lutzomyia anduzei samples.•Lutzomyia anduzei populations consist of high levels of genetic diversity.•Genetic structure varied from low to moderate among six samples analyzed.•These findings have implications to epidemiology, surveillance and vector control strategies.
Lutzomyia (Nyssomyia) anduzei has been recognized as a secondary vector of Leishmania guyanensis in the Brazilian Amazon region. Since L. anduzei is anthropophilic, co-exists in areas of high leishmaniasis transmission and has been found infected with L. guyanensis, the understanding of the vector population structure and of the process responsible for it is paramount to the vector management and control efforts. In this study we analyzed 74 and 67 sequences of the COI and Cytb loci, respectively, from mitochondrial DNA, aiming to estimate the intra-population genetic variability and population structure in six L. anduzei samples from the Brazilian Amazon region. For COI, we found 58 haplotypes, low to high (FST = 0.0310–0.4128) and significant (P = 0.0033) genetic structure, and reduced gene flow among populations. The haplotype network yielded many reticulations that likely resulted from hypervariability in the locus. For Cytb, we observed 27 haplotypes, low to moderate (FST = 0.0077–0.1954) and nonsignificant (P > 0.05) genetic structure for the majority of comparisons and extensive gene flow among populations, in line with the haplotypes network data. AMOVA analysis indicated that most of the variation occurred within populations (83.41%, 90.94%); nevertheless, there were significant differences (ΦST = 0.0906–0.1659; P = 0.00098; P = 0.00000) among them for both loci. The Mantel test showed that the genetic structure is not associated to an isolation-by-distance (IBD) model in either of both loci. These data suggest that L. anduzei is genetically very diverse. The genetic structure lacking IBD may be due to adaptation to local habitats and the low dispersal capacity of the sandflies, and both could lead to population fragmentation and geographic isolation. These findings have important implications for epidemiology, surveillance and vector control and may be a first step in understanding the evolutionary history of this species.
Graphical abstractFemale of phlebotomine sandfly emerged in the laboratory. The intra-population genetic diversity and population structure were estimated in six Lutzomyia anduzei samples from the Brazilian Amazon, using two mitochondrial genes.Figure optionsDownload full-size imageDownload as PowerPoint slide
