Occurrence of polyamines in root nodules of Phaseolus vulgaris in symbiosis with Rhizobium tropici in response to salt stress

Autor:	Carmen Lluch, Miguel López-Gómez, Libertad Cobos-Porras, Javier Hidalgo-Castellanos
Rok vydání:	2014
Předmět:	Rhizobium tropici Salinity Root nodule Spermidine Spermine Plant Science Sodium Chloride Horticulture Plant Roots Polymerase Chain Reaction Biochemistry chemistry.chemical_compound Symbiosis Cadaverine Nitrogen Fixation Sequence Homology Nucleic Acid Polyamines Putrescine Molecular Biology Phaseolus biology food and beverages Fabaceae Salt Tolerance General Medicine biology.organism_classification Plant Leaves chemistry Root Nodules Plant Polyamine
Zdroj:	Phytochemistry. 107:32-41
ISSN:	0031-9422
DOI:	10.1016/j.phytochem.2014.08.017
Popis:	Polyamines (PAs) are low molecular weight aliphatic compounds that have been shown to be an important part of plant responses to salt stress. For that reason in this work we have investigated the involvement of PAs in the response to salt stress in root nodules of Phaseolus vulgaris in symbiosis with Rhizobium tropici. The level and variety of PAs was higher in nodules, compared to leaves and roots, and in addition to the common PAs (putrescine, spermidine and spermine) we found homospermidine (Homspd) as the most abundant polyamine in nodules. UPLC-mass spectrometry analysis revealed the presence of 4-aminobutylcadaverine (4-ABcad), only described in nodules of Vigna angularis before. Indeed, the analysis of different nodular fractions revealed higher level of 4-ABcad, as well as Homspd, in bacteroids which indicate the production of these PAs by the bacteria in symbiosis. The genes involved in PAs biosynthesis in nodules displayed an induction under salt stress conditions which was not consistent with the decline of free PAs levels, probably due to the nitrogen limitations provoked by the nitrogenase activity depletion and/or the conversion of free PAs to theirs soluble conjugated forms, that seems to be one of the mechanisms involved in the regulation of PAs levels. On the contrary, cadaverine (Cad) and 4-ABcad concentrations augmented by the salinity, which might be due to their involvement in the response of bacteroids to hyper-osmotic conditions. In conclusion, the results shown in this work suggest the alteration of the bacteroidal metabolism towards the production of uncommon PAs such as 4-ABcad in the response to salt stress in legume root nodules.
Databáze:	OpenAIRE
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