Dual Adhesive Unipolar Polysaccharides Synthesized by Overlapping Biosynthetic Pathways in Agrobacterium tumefaciens

Abstract

SummaryAgrobacterium tumefaciens, is a member of the Alphaproteobacteria that pathogenizes plants, and associates with biotic and abiotic surfaces via a single cellular pole. A. tumefaciens produces the unipolar polysaccharide (UPP) at the site of surface contact. UPP production is normally surface-contact inducible, but elevated levels of the second messenger cyclic diguanylate monophosphate (cdGMP) bypass this requirement. Multiple lines of evidence suggest that the UPP has a central polysaccharide component. Using an A. tumefaciens derivative with elevated cdGMP and mutationally disabled for other dispensable polysaccharides, a series of related genetic screens have identified a large number of genes involved in UPP biosynthesis, most of which are Wzx-Wzy-type polysaccharide biosynthetic components. Extensive analyses of UPP production in these mutants have revealed that the UPP is comprised of two genetically, chemically and spatially discrete forms of polysaccharide, and that each requires a specific Wzy-type polymerase. Other important biosynthetic, processing and regulatory functions for UPP production are also revealed, some of which are common to both polysaccharides, and a subset of which are specific to each species. Many of the UPP genes identified are conserved among diverse rhizobia, whereas others are more lineage specific.Plain language summaryBacteria attach to a wide variety of surfaces including host tissues, via externalized structures described as adhesins. We define a large set of genes involved in synthesis of a complex unipolar adhesin comprised of two distinct polysaccharides, that is required for surface attachment by the plant-associated pathogen Agrobacterium tumefaciens.