論文ID: 7204106
Alginate, a heteropolysaccharide composed of α-L-guluronic acid (G) and β-D-mannuronic acid (M), comprises poly-G, poly-M, and mixed poly-MG regions. Alginate lyases, classified within the polysaccharide lyase (PL) family, degrade alginate into unsaturated saccharides via β-elimination. Due to the abundance of alginate in brown algae, various marine bacteria produce alginate lyases for its assimilation. Recently, alginate lyases have also been identified in gut bacteria such as those of the genus Bacteroides. In this study, we purified an alginate lyase from enrichment culture supernatants containing alginate, using a human fecal sample, and isolated B. xylanisolvens strain MK6803, which can grow on alginate as a sole carbon source-unlike the type strain B. xylanisolvens XB1A. Draft genome sequencing of strain MK6803 revealed an alginate-metabolizing gene cluster encoding three alginate lyases belonging to PL6_1, PL17_2, and PL38, along with a putative oxidoreductase. This gene cluster was shared with B. ovatus CP926 and B. xylanisolvens CL11T00C41, but not with the type strain XB1A. Bacteroides species lacking this gene cluster exhibited no alginate assimilation, even if they possessed genes encoding one or more of the three alginate lyases. This suggests that the presence of the putative oxidoreductase, alongside the lyases, is essential for alginate assimilation in Bacteroides species. Phylogenetic analysis indicated horizontal gene transfer within the genus Bacteroides. These findings highlight the role of alginate metabolism in the adaptation of human gut microbiota.
