The <i>sps</i> Genes Encode an Original Legionaminic Acid Pathway Required for Crust Assembly in Bacillus subtilis
Thomas Dubois, Frédéric Krzewinski, Nao Yamakawa, Christelle Lemy, Audrey Hamiot, Loïc Brunet, Anne‐Sophie Lacoste, Yuryi Knirel, Yann Guérardel, Christine Faille
Abstract
Bacillus species are a major economic and food safety concern of the food industry because of their food spoilage-causing capability and persistence. Their persistence is mainly due to their ability to form highly resistant spores adhering to the surfaces of industrial equipment. Spores of the Bacillus subtilis group are surrounded by the crust, a superficial layer which plays a key role in their adhesion properties. However, knowledge of the composition and structure of this layer remains incomplete. Here, for the first time, we identified a nonulosonic acid (Leg) at the surfaces of bacterial spores ( B. subtilis ). We uncovered a novel Leg biosynthesis pathway, and we demonstrated that Leg is required for proper crust assembly. This work contributes to the description of the structure and composition of Bacillus spores which has been under way for decades, and it provides keys to understanding the importance of carbohydrates in Bacillus adhesion and persistence in the food industry.