Abstract

Background and aims Homospermidine is known to be the most abundant polyamine in root nodules of Phaseolus vulgaris induced by Rhizobium tropici. In addition, homospermidine is involved in the stress tolerance of fast-growing rhizobia and in the bacteroid protection from environmental changes. For that reason, in this work, we have investigated the role of the rhizobial homospermidine synthase in the response of P. vulgaris root nodules to salinity.

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