Call, Tanner; Bean, Joseph; Chaston, John (Brigham Young University)
Faculty Advisor: Chaston, John (Life Sciences, Plant and Wildlife Sciences)
The gut microbiome, or the microorganisms that colonize the GI tract of all macro-organisms, plays a significant role in host health and physiology. In a study last year, I found that the microbiome of D. melanogaster has a direct influence on dietary preference using a well-established, automated feeding assay. In this study, I extend these findings by performing a metagenome-wide association (MGWA) screen to predict bacterial genes responsible for the effect. Specifically, I measured dietary preferences in flies mono-associated with each of 40 different bacterial species. My mentor compared the dietary preference of these flies with the genomes of their associated bacteria using a MGWA. This analysis predicted 1932 bacterial genes that could be responsible for the feeding preference phenotype. I selected the top 22 genes, including all uncharacterized genes, for which we have knock-out mutants in a laboratory stock of bacterial mutants. I will test if these genes are necessary for inducing specific host feeding preferences by comparing feeding preferences of flies mono-associated with a bacterial mutant with controls, using a generalized mixed linear model. These results will help us understand how different members of the microbiota can influence animal feeding behaviors.