Journal
INSECT SCIENCE
Volume 30, Issue 2, Pages 569-581Publisher
WILEY
DOI: 10.1111/1744-7917.13100
Keywords
arylalkylamine N-acetyltransferase; functional diversity; gene duplication; molecular evolution; mosquito; N-acyltransferase
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This study provides insight into the molecular evolution of the aaNAT family in mosquitoes. By analyzing genomes of 33 species, it was found that aaNAT orthologs are present in various organisms but absent in certain species. Multiple aaNATs were detected in the Culicinae subfamily of mosquitoes, and their gene expansion occurred more than 190 million years ago through tandem duplication events. Selection analysis revealed that mosquito aaNATs evolved under strong positive pressures, leading to functional diversity.
Arylalkylamine N-acetyltransferase (aaNAT), considered a potential new insecticide target, catalyzes the acetylation of arylalkylamine substrates such as serotonin and dopamine and, hence, mediates diverse functions in insects. However, the origin of insect aaNATs (iaaNATs) and the evolutionary process that generates multiple aaNATs in mosquitoes remain largely unknown. Here, we have analyzed the genomes of 33 species to explore and expand our understanding of the molecular evolution of this gene family in detail. We show that aaNAT orthologs are present in Bacteria, Cephalochordata, Chondrichthyes, Cnidaria, Crustacea, Mammalia, Placozoa, and Teleoste, as well as those from a number of insects, but are absent in some species of Annelida, Echinozoa, and Mollusca as well as Arachnida. Particularly, more than 10 aaNATs were detected in the Culicinae subfamily of mosquitoes. Molecular evolutionary analysis of aaNAT/aaNAT-like genes in mosquitoes reveals that tandem duplication events led to gene expansion in the Culicinae subfamily of mosquitoes more than 190 million years ago. Further selection analysis demonstrates that mosquito aaNATs evolved under strongly positive pressures that generated functional diversity following gene duplication events. Overall, this study may provide novel insights into the molecular evolution of the aaNAT family in mosquitoes.
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