Each of the three enterotypes was characterized by high levels of a single microbial genus, Bacteroides, Prevotella, and Ruminococcus. Manimozhiyan Arumugam, molecular biologist at the European Molecular Biology Laboratory in Heidelberg, Germany, the author of the original paper, and his team repeated the analysis of 663 Danish and Spanish adults. The results show that a genus of archae, called Methanobrevibacter, joins Ruminococcus as a defining microbe in the third enterotype. The separation between this cluster and Bacteroides is no longer clear. However, they remain distinct from the Prevotella. Dan Knights, a computational biologist at the University of Colorado at Boulder, told the conference that discrete enterotypes may not exist at all. His team studied the intestinal flora of 1,200 adults and found a continuum of communities, from Bacteroides-driven ones to Prevotella-driven ones. His results will be published in the journal PLoS Computational Biology. There is a gradient and the enterotypes are concentrated within that, states Knights. The boundaries may be blurred but the differences between the extremes are still there. The actual structure within this gradient is what needs to be defined as well as studying the microbial flora of more people. Enterotypes might affect how much a person is at risk of disease or responds to different drugs. Last year in the journal Science, it was discovered that the Bacteroides enterotype is associated with diets high in fat or protein while Prevotella is associated with a high-carbohydrate diet.
