ABSTRACTMonosaccharides capable of serving as nutrients for the soil bacteriumAgrobacterium tumefaciensare also inducers of thevirregulon present in the tumor-inducing (Ti) plasmid of this plant pathogen. One such monosaccharide is galacturonate, the predominant monomer of pectin found in plant cell walls. This ligand is recognized by the periplasmic sugar binding protein ChvE, which interacts with the VirA histidine kinase that controlsvirgene expression. Although ChvE is also a member of the ChvE-MmsAB ABC transporter involved in the utilization of many neutral sugars, it is not involved in galacturonate utilization. In this study, a putative tripartite ATP-independent periplasmic (TRAP) transporter, GaaPQM, is shown to be essential for the utilization of galacturonic acid; we show that residue R169 in the predicted sugar binding site of the GaaP is required for activity. The gene upstream ofgaaPQM(gaaR) encodes a member of the GntR family of regulators. GaaR is shown to repress the expression ofgaaPQM, and the repression is relieved in the presence of the substrate for GaaPQM. Moreover, GaaR is shown to bind putative promoter regions in the sequences required for galacturonic acid utilization. Finally,A. tumefaciensstrains carrying a deletion ofgaaPQMare more sensitive to galacturonate as an inducer ofvirgene expression, while the overexpression ofgaaPQMresults in strains being less sensitive to thisvirinducer. This supports a model in which transporter activity is crucial in ensuring thatvirgene expression occurs only at sites of high ligand concentration, such as those at a plant wound site.
virF, the host-range-determining virulence gene of Agrobacterium tumefaciens, affects T-DNA transfer to Zea mays.
