Summary• Asnodf32, encoding a nodule-specific cysteine proteinase in Astragalus sinicus, is probably involved in nodule senescence. To obtain direct evidence of its role in nodule senescence, Agrobacterium rhizogenes-mediated RNA interference was applied to A. sinicus hairy roots.• Real-time qRT-PCR was used to estimate the efficiency of suppression. The senescent phenotype of transgenic nodules was examined with paraffin-embedded slides, TUNEL (TdT-mediated dUTP nick-end labeling) assay, and transmission electron microscopy, and the bacteroid nitrogen fixation activity was also measured.• It was found that silencing of Asnodf32 delayed root nodule and bacteroid senescence. The period of bacteroid active nitrogen fixation was significantly extended. Interestingly, nodules enlarged in length were also observed on Asnodf32-silenced hairy roots.• The results reported here indicate that Asnodf32 plays an important role in the regulation of root nodule senescence.
A Mesorhizobium huakuii strain HN3015 was isolated from Astragalus sinicus in a rice-growing field of Southern China. Strain HN3015 contained three large plasmids. The three indigenous plasmids, named as pMhHN3015a, pMhHN3015b and pMhHN3015c of M. huakuii HN3015, were, respectively, cured by Tn5-sacB insertion. The mutant strain HN3015-1 cured with its largest plasmid pMhHN3015c formed only white null nodules. Mutant HN3015-3 cured with its smallest plasmid pMhHN3015a could form pink effective nodules. However, mutant HN3015-2 cured of the second largest plasmid pMhHN3015b lost nodulation ability. Furthermore, curing of pMhHN3015a had enhanced competitive nodulation ability and symbiotic efficiency of HN3015-3. The results from acidity tolerance assays indicated that the three plasmids in M. huakuii HN3015 had a positive control effect on acidity tolerance of HN3015, and all indigenous plasmids of M. huakuii HN3015 had a negative control effect on the alkali tolerance capacity of HN3015. Surprisingly, all plasmids in M. huakuii HN3015 had also a negative control effect on its growth rate. The results showed an interactive and functional complexity of plasmids in strain HN3015.
A homologue of Sinorhizobium meliloti bacA was isolated from Mesorhizobium huakuii 7653R, which is capable of fixing atmospheric nitrogen in symbiotic association with leguminous Astragalus sinicus (Chinese milk vetch). Inactivation of the bacA gene abolished the ability of M. huakuii 7653R to establish a successful symbiosis with its host plant. Simultaneously, compared with wild-type M. huakuii 7653R, the bacA mutant was more sensitive to cell envelope-disrupting agents (acidic solution, ethanol, SDS, and crystal violet). Mass spectrometry analysis revealed that the very-long-chain fatty acid (27-OHC-28:0 and 29-OHC-30:0) contents of lipid A was reduced in the M. huakuii 7653R bacA mutant. Taken together, our data suggest that the cell envelope was altered in the M. huakuii 7653R bacA mutant, which might deteriorate bacterial adaption to acute environmental changes encountered in host cells and ultimately result in the failure of Mesorhizobium-legume symbiosis.
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