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Advisor(s)
Abstract(s)
Honey bees (Apis mellifera) inhabit a vast geographical range, spanning diverse natural and agricultural ecosystems. They are exposed to different levels and types of natural (such as plant allelochemicals) and synthetic (such as pesticides) xenobiotics within this range. Several genes have been implicated in the resistance of insects to pesticides, including the P450 monooxygenases superfamily that contains 46 genes. Here, the sequences of P450 monooxygenases from >1500 individuals representing 17 subspecies of the four honey bee main lineages will be analyzed. The functional annotation and effects of each variant will then be predicted using SnpEff and the allele frequency and FST (fixation index) of each SNP per population and evolutionary lineages will be calculated. It is expected to have highly differentiated SNPs among the different subspecies/lineages.
Description
Keywords
Genetic diversity P450 Honey bees Research Subject Categories::TECHNOLOGY::Chemical engineering::Food technology
Citation
Li, Fernanda; Yadró Garcia, Carlos A.; Rufino, José; Rosa-Fontana, Annelise; Verbinnen, Gilles; Graaf, Dirk C.; Smet, Lina; Pinto, M. Alice; Henriques, Dora (2024). Diversity patterns of P450 genes in 17 honey bee subspecies. In 10th congress of Apidology. Tallin
Publisher
Estonian University of Life Sciences