Evolutionary history of eukaryotic alpha -glucosidases from the alpha -amylase family
Autor(es): Gabrisko, Marek
Resumo: Although some alpha -glucosidases from the alpha -amylase family (glycoside hydrolase family GH13) have been studied extensively, their exact number, organization on the chromosome, and orthology/paralogy relationship were unknown. This was true even for important disease vectors where gut alpha -glucosidase is known to be receptor for the Bin toxin used to control the population of some mosquito species. In some cases orthologs from related species were studied intensively, while potentially important paralogs were omitted. We have, therefore, used a bioinformatics approach to identify all family GH13 alpha -glucosidases from the selected species from Metazoa (including three mosquito species: Aedes aegypti, Anopheles gambiae, and Culex quinquefasciatus) as well as from Fungi in an effort to characterize their arrangement on the chromosome and evolutionary relationships among orthologs and among paralogs. We also searched for pseudogenes and genes coding for enzymatically inactive proteins with a possible new function. We have found GH13 alpha -glucosidases mostly in Arthropoda and Fungi where they form gene families, as a result of multiple lineage-specific gene duplications. In mosquito species we have identified 14 alpha -glucosidase (Aglu) genes of which only five have been biochemically characterized so far, two are putative pseudogenes and the rest remains uncharacterized. We also revealed quite a complex evolutionary history of the eukaryotic alpha -glucosidases probably involving multiple losses of genes or horizontal gene transfer from bacteria.
Palavras-Chave: Biological surveys; Glycosides; Chromosomes; Fungi; Hydrolases; Pest control; Aquatic insects; Evolution; Disease transmission; alpha ?Amylase; Pseudogenes; Molecular evolution; Digestive tract; Glycoside hydrolase; Bioinformatics; Orthology; Toxins; alpha -Glucosidase
Imprenta: Journal of Molecular Evolution, v. 76, n. 3, p. 129-145, 2013.
Descritores: Aedes aegypti - Proteins ; Aedes aegypti - Transmission
Data de publicação: 2013
