Abstract
Bradyrhizobium guangxiense CCBAU53363 efficiently nodulates peanut but exhibits incompatible interaction with mung bean. By comparing the common nod region with those of other peanut bradyrhizobia efficiently nodulating these two hosts, distinctive characteristics with a single nodD isoform (nodD1) and a truncated nolA were identified. However, the regulatory roles of NodD1 and NolA and their coordination in legume-bradyrhizobial interactions remain largely unknown in terms of explaining the contrasting symbiotic compatibility. Here, we report that nolA was important for CCBAU53363 symbiosis with peanut but restricted nodulation on mung bean, while nodD1 was dispensable for CCBAU53363 symbiosis with peanut but essential for nodulation on mung bean. Moreover, nolA exerted a cumulative contribution with nodD1 to efficient symbiosis with peanut. Additionally, mutants lacking nolA delayed nodulation on peanut, and both nolA and nodD1 were required for competitive nodule colonization. It is noteworth that most of the nodulation genes and type III secretion system (T3SS)-related genes were significantly downregulated in a strain 53ΔnodD1nolA mutant compared to wild-type strain CCBAU53363, and the downregulated nodulation genes also had a greater impact than T3SS-related genes on the symbiotic defect of 53ΔnodD1nolA on peanut, which was supported by a more severe symbiotic defect induced by 53ΔnodC than that with the 53ΔnodD1nopP, 53ΔnodD1rhcJ, and 53ΔnodD1ttsI mutants. NolA did not regulate nod gene expression but did regulate the T3SS effector gene nopP in an indirect way. Meanwhile, nolA, nodW, and some T3SS-related genes besides nopP were also demonstrated as new "repressors" that seriously impaired CCBAU53363 symbiosis with mung bean. Taken together, the roles and essentiality of nolA and nodD1 in modulating symbiotic compatibility are sophisticated and host dependent. IMPORTANCE The main findings of this study were that we clarified that the roles and essentiality of nodD1 and nolA are host dependent. Importantly, for the first time, NolA was found to positively regulate T3SS effector gene nopP to mediate incompatibility on mung bean. Additionally, NolA does not regulate nod genes, which are activated by NodD1. nolA exerts a cumulative effect with nodD1 on CCBAU53363 symbiosis with peanut. These findings shed new light on our understanding of coordinated regulation of NodD1 and NolA in peanut bradyrhizobia with different hosts.
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