Layered structure and complex mechanochemistry of a strong bacterial adhesive

Abstract: While designing adhesives that perform in aqueous environments has proven challenging for synthetic adhesives, microorganisms commonly produce bioadhesives that efficiently attach to a variety of substrates, including wet surfaces that remain a challenge for industrial adhesives. The aquatic bacterium Caulobacter crescentus uses a discrete polar polysaccharide complex, the holdfast, to strongly attach to surfaces and resist flow. The holdfast is extremely versatile and has an impressive adhesive strength. Here… Show more

“…After the cell cycle progresses beyond a certain point, or upon contact with a surface, the newborn cells secrete a holdfast at the same pole and differentiate into stalked cells by retracting their pili, ejecting their flagellum, and synthesizing a thin cylindrical extension of the cell envelope called the stalk, which pushes the holdfast away from the cell body. While the chemical composition of the holdfast is not entirely elucidated, it is composed of polysaccharides with four different monosaccharide constituents, as well as DNA and peptide molecules of unknown nature (Merker & Smit, 1988, Hernando-Pérez et al, 2018, Hershey et al, 2019. Holdfast is an extremely strong bioadhesin (Tsang et al, 2006, Berne et al, 2013 crucial for irreversible cell adhesion to solid surfaces (Ong et al, 1990, Bodenmiller et al, 2004, colonization of air-liquid interfaces (Fiebig, 2019), and biofilm formation (Entcheva-Dimitrov & Spormann, 2004).…”

eDNA-stimulated cell dispersion fromCaulobacter crescentusbiofilms upon oxygen limitation is dependent on a toxin-antitoxin system

“…After the cell cycle progresses beyond a certain point, or upon contact with a surface, the newborn cells secrete a holdfast at the same pole and differentiate into stalked cells by retracting their pili, ejecting their flagellum, and synthesizing a thin cylindrical extension of the cell envelope called the stalk, which pushes the holdfast away from the cell body. While the chemical composition of the holdfast is not entirely elucidated, it is composed of polysaccharides with four different monosaccharide constituents, as well as DNA and peptide molecules of unknown nature (Merker & Smit, 1988, Hernando-Pérez et al, 2018, Hershey et al, 2019. Holdfast is an extremely strong bioadhesin (Tsang et al, 2006, Berne et al, 2013 crucial for irreversible cell adhesion to solid surfaces (Ong et al, 1990, Bodenmiller et al, 2004, colonization of air-liquid interfaces (Fiebig, 2019), and biofilm formation (Entcheva-Dimitrov & Spormann, 2004).…”

eDNA-stimulated cell dispersion fromCaulobacter crescentusbiofilms upon oxygen limitation is dependent on a toxin-antitoxin system