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Molecular evolution of the period gene and phylogeny of neotropical sandflies
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Abstract(s)
The molecular evolution of the clock gene period was studied in Phlebotomine sandflies (Diptera: Psychodidae). Comparison of the synonymous and nonsynonymous substitution rates between sandflies and Drosophila revealed a significantly higher evolutionary rate in the latter in three of the four regions analyzed. The differences in rate were higher in the sequences flanking the Thr-Gly repetitive domain, a region that has expanded in Drosophila but remained stable and short in sandflies, a result consistent with the coevolutionary scenario proposed for this region of the gene. An initial phylogenetic analysis including eight neotropical sandfly species and one from the Old World was also carried out. The results showed that only the subgenus Nyssomyia is well supported by distance (neighbor-joining) and maximum parsimony analysis. The grouping of the other species from the subgenus Lutzomyia and Migonei group shows very low bootstrap values and is not entirely consistent with classical morphological systematics of the genus Lutzomyia.
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Keywords
Relógios biológicos Proteínas de Drosophila Dados de sequência molecular Proteínas nucleares Proteínas circadianas period Filogenia Psychodidae Homologia de sequência de aminoácidos Homologia de sequência do ácido nucleico Evolução molecular Genes de insetos Biological clocks Period gene Leishmaniose Leishmaniasis Drosophila proteins Molecular sequence data Nuclear proteins Period circadian proteins Phylogeny Amino acid sequence homology Nucleic acid sequence homology Molecular evolution Insect genes
Citation
Publisher
Springer Verlag