Genetic loci involved in rubrifacine production in the walnut pathogen Brenneria rubrifaciens

Complete Genome Sequences of Brenneria rubrifaciens Strain 6D370 and Brenneria nigrifluens Strain ATCC 13028, Causative Agents of Bark Cankers in Walnut

Brenneria rubrifaciens and Brenneria nigrifluens, respectively, cause deep and shallow bark canker disease in walnut. B. rubrifaciens exhibits quorum sensing-controlled virulence and rubrifacine pigment production. The complete genome sequences of these species will be useful for studying the role of genes regulated by quorum sensing, including pathways mediating pathogenesis.

Brenneria rubrifaciens and Brenneria nigrifluens, respectively, cause deep and shallow bark canker disease in walnut. B. rubrifaciens exhibits quorum sensing-controlled virulence and rubrifacine pigment production. The complete genome sequences of these species will be useful for studying the role of genes regulated by quorum sensing, including pathways mediating pathogenesis.

AHL signals induce rubrifacine production in a bruI mutant of Brenneria rubrifaciens

Several members of the bacterial genus Brenneria are pathogenic on different tree species. Cell-free extracts from the bacterial phytopathogens Brenneria rubrifaciens, B. salicis, and B. nigrifluens induced production of the red pigment rubrifacine in the B. rubrifaciens bruI insertional mutant Br-212. Analysis of the bruI locus identified an adjacent open reading frame, designated bruR, with homology to luxR. High-performance liquid chromatography and mass spectrometry analysis of ethyl acetate extracts from wild-type B. rubrifaciens and Escherichia coli expressing the bruI gene identified two acyl homoserine lactone (AHL) peaks, N-(3-oxohexanoyl)-homoserine lactone (3OC6HSL) and N-hexanoyl-homoserine lactone (C6HSL). Addition of synthetic 3OC6HSL and C6HSL at 10 μM to the bruI mutant, strain Br-212, induced rubrifacine production and the ability to elicit a hypersensitive reaction (HR) in tobacco leaves. Synthetic C6HSL was less effective at inducing pigment production than 3OC6HSL at 10 μM. The bruI mutant Br-212 did not produce detectable AHLs, indicating that C6HSL and 3OC6HSL are the major AHLs produced by this species. The AHLs N-heptanoyl-DL-homoserine lactone (C7HSL), N-octanoyl-DL-homoserine lactone (C8HSL), and N-(3-oxooctanoyl)-DL-homoserine lactone (3OC8HSL) also induced pigment production in Br-212 and restored its ability to elicit an HR in tobacco, suggesting that cross-talk with other bacterial species may be possible.