Wang, MinqianFirrman, JenniZhang, LiqingArango-Argoty, GustavoTomasula, PeggyLiu, Lin ShuXiao, WeidongYam, Kit2017-09-202017-09-202017-08-03Wang, M.; Firrman, J.; Zhang, L.; Arango-Argoty, G.; Tomasula, P.; Liu, L.; Xiao, W.; Yam, K. Apigenin Impacts the Growth of the Gut Microbiota and Alters the Gene Expression of Enterococcus. Molecules 2017, 22, 1292.http://hdl.handle.net/10919/79350Apigenin is a major dietary flavonoid with many bioactivities, widely distributed in plants. Apigenin reaches the colon region intact and interacts there with the human gut microbiota, however there is little research on how apigenin affects the gut bacteria. This study investigated the effect of pure apigenin on human gut bacteria, at both the single strain and community levels. The effect of apigenin on the single gut bacteria strains <i>Bacteroides galacturonicus</i>, <i>Bifidobacterium catenulatum</i>, <i>Lactobacillus rhamnosus</i> GG, and <i>Enterococcus caccae</i>, was examined by measuring their anaerobic growth profiles. The effect of apigenin on a gut microbiota community was studied by culturing a fecal inoculum under in vitro conditions simulating the human ascending colon. 16S rRNA gene sequencing and GC-MS analysis quantified changes in the community structure. Single molecule RNA sequencing was used to reveal the response of <i>Enterococcus caccae</i> to apigenin. <i>Enterococcus caccae</i> was effectively inhibited by apigenin when cultured alone, however, the genus <i>Enterococcus</i> was enhanced when tested in a community setting. Single molecule RNA sequencing found that <i>Enterococcus caccae</i> responded to apigenin by up-regulating genes involved in DNA repair, stress response, cell wall synthesis, and protein folding. Taken together, these results demonstrate that apigenin affects both the growth and gene expression of <i>Enterococcus caccae</i>.application/pdfenCreative Commons Attribution 4.0 InternationalapigeninEnterococcusgut microbiotasingle molecule RNA sequencingArticle - Refereed2017-09-20https://doi.org/10.3390/molecules22081292