Abstract
Mesorhizobium loti is the microsymbiont of Lotus species, including the model legume L. japonicus. M. loti differs from other rhizobia in that it contains two copies of the key nitrogen fixation regulatory gene nifA, nifA1 and nifA2, both of which are located on the symbiosis island ICEMlSymR7A. M. loti R7A also contains two rpoN genes, rpoN1 located on the chromosome outside of ICEMlSymR7A and rpoN2 that is located on ICEMlSymR7A. The aims of the current work were to establish how nifA expression was activated in M. loti and to characterise the NifA-RpoN regulon. The nifA2 and rpoN2 genes were essential for nitrogen fixation whereas nifA1 and rpoN1 were dispensable. Expression of nifA2 was activated, possibly in response to an inositol derivative, by a novel regulator of the LacI/GalR family encoded by the fixV gene located upstream of nifA2. Other than the well-characterized nif/fix genes, most NifA2-regulated genes were not required for nitrogen fixation although they were strongly expressed in nodules. The NifA-regulated nifZ and fixU genes, along with nifQ which was not NifA-regulated, were required in M. loti for a fully effective symbiosis although they are not present in some other rhizobia. The NifA-regulated gene msi158 that encodes a porin was also required for a fully effective symbiosis. Several metabolic genes that lacked NifA-regulated promoters were strongly expressed in nodules in a NifA2-dependent manner but again mutants did not have an overt symbiotic phenotype. In summary, many genes encoded on ICEMlSymR7A were strongly expressed in nodules but not free-living rhizobia, but were not essential for symbiotic nitrogen fixation. It seems likely that some of these genes have functional homologues elsewhere in the genome and that bacteroid metabolism may be sufficiently plastic to adapt to loss of certain enzymatic functions.
Highlights
Mesorhizobium loti is the natural microsymbiont of Lotus species, including the model legume L. japonicus
NifA2 but not NifA1 is required for symbiotic nitrogen fixation nifA1 encodes a functional protein Previous work showed that M. loti nifA2 mutants form Fix2 nodules [14,15] whereas nifA1 mutants are not symbiotically impaired [14]
Our results show that the regulators FixJ, FixK and RegR that initiate symbiotic gene expression in other rhizobia are not required for symbiotic nitrogen fixation in M. loti
Summary
Mesorhizobium loti is the natural microsymbiont of Lotus species, including the model legume L. japonicus. Sequence analysis of ICEMlSymR7A revealed that it shares 248 kb of DNA with the 611-kb symbiosis island of the sequenced M. loti strain MAFF303099 [5], including all the genes likely to be required for Nod factor synthesis and the formation of a functional nitrogenase enzyme. It contains mobility genes, a type IV secretion system similar to that of the vir system from Agrobacterium tumefaciens and a diverse range of regulators, metabolic genes, and transporters that may contribute to nodule function [6,7]. The two genes are not functionally redundant as M. loti nifA2 mutants form Fix nodules [14,15] whereas nifA1 mutants are not symbiotically impaired [14]
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