Abstract

The present study revealed the genomic architecture of Akkermansia in human gut by analyzing 1,119 near-complete metagenome-assembled genomes, 84 public available genomes, and 1 newly sequenced A. glycaniphila strain. We found that 1) the genomes of Akkermansia formed 4 species (including 2 candidate species) with distinct interspecies similarity and differed genomic characteristics, and 2) the population of A. muciniphila was structured by 3 previously identified phylogroups (Amuc I, II, and III) referring to 1,132 genomes and 1 new phylogroup (defined as Amuc IV) that contained 62 genomes. Amuc III was presented in Chinese population and Amuc IV was mainly distributed in western populations. A large number of gene of functions, pathways, and carbohydrate active enzymes that specifically associated to phylogroups. Our findings based on over a thousand genomes strengthened the previous knowledge and provided new insights into the population structure and ecology of Akkermansia in human gut.