Paraburkholderia phymatum, a β-proteobacterium, forms a nitrogen-fixing symbiosis with many species of the large legume genus Mimosa as well as with common bean (Phaseolus vulgaris L.). Paraburkholderia are considered to have evolved nodulation independently from the well-studied α-proteobacteria symbionts of legumes. However, the detailed mechanisms important for β-rhizobia-legume symbiosis have not yet been determined. In this manuscript, we have sequenced the genome of P. phymatum MP20, a strain isolated from Mimosa pudica nodules, and utilized transposon mutagenesis to identify a mutant that showed delayed and ineffective nodulation of M. pudica. Further analysis revealed that the mutant strain produced an altered lipopolysaccharide lacking rhamnose containing O-antigen. Complementation with the wild-type gene restored the symbiosis. Microscopic analysis of the ineffective nodules showed that the mutant strain did not infect the cortical cells but was restricted to the endodermis. The results suggest that the O-antigen of P. phymatum is important for the bacterial infection of cortical cells and for nodule maturation. Further research will unveil the specific involvement of the glycosyltransferase gene in LPS biosynthesis and its impact on successful nodule formation by P. phymatum.IMPORTANCEThe nitrogen-fixing symbiosis between legumes and rhizobia is important for agricultural and environmental sustainability. The mechanisms of the symbiotic interactions are extensively studied using α-rhizobia. In contrast, mechanisms of symbiotic interactions important for β-rhizobia and their Caesalpinioid (mimosoid) legume hosts are not well known. Here, we describe the genome sequence of P. phymatum MP20, a β-rhizobia isolated from the nodules of M. pudica, and isolation and characterization of a transposon mutant defective in symbiosis. We demonstrate that the O-antigen of the LPS is required for nodulation and symbiotic nitrogen fixation. This study broadens our knowledge of symbiotic interactions in β-rhizobia and will lead to a better understanding of the wider rhizobial-legume symbiosis apart from the α-rhizobia.
Keywords: GFP; GUS; lipopolysaccharide; nitrogen fixation; nodulation; plant growth promoting rhizobacteria (PGPR).