Abstract
The enzyme 1-aminocyclopropane-1-carboxylate (ACC) deaminase converts ACC, a precursor of the plant hormone ethylene, into ammonia and α-ketobutyrate. ACC deaminase is widespread among the rhizobia in which it might play a crucial role in protecting rhizobia against inhibitory effects of ethylene synthesized by the host plant in response to the nodulation process. The beneficial action of this enzyme was demonstrated in several rhizobia such as Mesorhizobium loti and Rhizobium leguminosarum where knock-out mutants of the ACC deaminase gene showed nodulation defects. The genome of the slow-growing rhizobial species Bradyrhizobium japonicum also carries an annotated gene for a putative ACC deaminase (blr0241). Here, we tested the possible importance of this enzyme in B. japonicum by constructing an insertion mutant of blr0241 and studying its phenotype. First, the activity of ACC deaminase itself was measured. Unlike the B. japonicum wild type, the blr0241 mutant did not show any enzymatic activity. By contrast, the mutant was not impaired in its ability to nodulate soybean, cowpea, siratro, and mungbean. Likewise, symbiotic nitrogen fixation activity remained unaffected. Furthermore, a co-inoculation assay with the B. japonicum wild type and the blr0241 mutant for soybean and siratro nodulation revealed that the mutant was not affected in its competitiveness for nodulation and nodule occupation. The results show that the role previously ascribed to ACC deaminase in the rhizobia cannot be generalized, and species-specific differences may exist.
Highlights
Rhizobia are soil bacteria which can establish a symbiosis with legume host plants, therein acting as nitrogen-fixing endosymbionts
ACC deaminase is widespread among the rhizobia in which it might play a crucial role in protecting rhizobia against inhibitory effects of ethylene synthesized by the host plant in response to the nodulation process
Cowpea and siratro 10 plants inoculated with B. japonicum wild type 110spc4 and 10 plants inoculated with the blr0241 mutant strain were tested
Summary
Rhizobia are soil bacteria which can establish a symbiosis with legume host plants, therein acting as nitrogen-fixing endosymbionts. One of the phytohormones that regulate nodulation is ethylene This small and readily diffusible compound is well known to be involved in many aspects of the plant life cycle, including seed germination, root initiation, root hair development, fruit development and ripening (Abeles et al 1992). Ethylene is synthesized in response to abiotic (wounding, hypoxia, chilling) and biotic stresses (pathogen attack) which includes the interaction of plants with rhizobia (Spaink 1997; Abeles et al 1992). In the latter case ethylene was reported to inhibit the nodulation of legumes (Lee and LaRue 1992; Nukui et al 2000; Peters and Cristestes 1989). In the symbiosis between B. japonicum and another host plant Macroptilium atropurpureum (siratro), ethylene does appear to play an inhibitory role (Nukui et al 2000)
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