Gottfredson, Sarah; Chaston, John (Brigham Young University)
Faculty Advisor: Chaston, John (Life Sciences, Plant and Wildlife Sciences)
The microbiome of Drosophila melanogaster can have significant effects on the host, and many of these have been studied. However, the reason why the bacterial species associate with and persist in D. melanogaster has not been studied in depth. Here we define persistence as how long a microbe associates with a host. The early assumption has been that the D. melanogaster gut microbiome is established solely through diet, but recent work suggests that other factors may be at play in the microbiome establishment. This experiment aims to study the correlation between bacterial genotype and persistence in the D. melanogaster microbiome. In this study, a metagenome wide association (MGWAS) was done using 40 different strains of bacteria to find distinct bacterial genes that are significantly correlated with persistence. To do this, each strain was mono-associated with twenty-four individual flies. The flies were reared for fourteen days, transferred onto new food three times a day for two days, homogenized, and plated. Using the significant genes found through the MGWAS, the same experiment protocol will be used to test mutants of these genes for their effect on persistence. These data will provide us with distinct genes that are necessary for effective bacterial persistence.