In the face of global challenges such as food insecurity, environmental degradation, and climate change, biological nitrogen fixation by rhizobia has become increasingly crucial for supporting sustainable agriculture and reducing reliance on synthetic fertilizers. Paraburkholderia phymatum STM815T is a beta-proteobacterial rhizobium notable for its exceptionally broad host range, forming nitrogen-fixing symbioses with over 50 legume species. In this study, we identified pelB on the P. phymatum STM815T symbiotic plasmid, which codes for a pectate lyase, whose expression is activated by the presence of pectin in the medium and during symbiosis with common bean. In the absence of pelB, P. phymatum STM815T shows improved symbiotic performance with common bean. Plants infected with the pelB mutant developed fewer but larger nodules and exhibited a 43% increase in nitrogenase activity, suggesting that pelB in P. phymatum STM815T may negatively affect nodulation efficiency and nitrogen fixation in common bean.
Leemann et al. (Wed,) studied this question.