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The aba3-1 Mutant of Arabidopsis thaliana Withstands Moderate Doses of Salt Stress by Modulating Leaf Growth and Salicylic Acid Levels
Authors:Mar��a Amparo Asensi-Fabado  Sergi Munn��-Bosch
Affiliation:(1) Departament de Biologia Vegetal, Facultat de Biologia, Universitat de Barcelona, Avinguda Diagonal 645, 08028 Barcelona, Spain;
Abstract:The role of abscisic acid (ABA) and salicylic acid (SA) in salt stress tolerance was studied in Arabidopsis thaliana using mutants that show a defect in hormone biosynthesis or signaling. Plants were subjected to either control conditions (irrigated with nutrient solution) or a moderate salt stress (nutrient solution + 100 mM NaCl), and the response of the aba3, abi4, sid2, and eds5 mutants (with defective ABA or SA biosynthesis/signaling) was compared to that of the wild type (WT). A particular phenotype was observed in the aba3 mutant, which was characterized by reduced plant biomass and lower relative leaf water contents (RWC) under control conditions. However, salt stress reduced growth in the WT, sid2, and eds5 mutants, and to a lesser extent in the abi4 mutant, but not in the aba3 mutant. An analysis of the hormonal balance of leaves revealed that altered SA levels may explain, at least partly, growth changes in the aba3 mutant, under both control and salt stress conditions. The aba3-1 mutant showed higher SA levels than the WT under control conditions and a drastic decrease in the levels of this plant growth regulator under salt stress, an aspect that was not observed in the WT. However, reductions in endogenous SA levels in sid2 and eds5 mutants did not result in increased growth either under control or salt stress conditions. Among the tested genotypes, the aba3 mutant was the only one in which jasmonic acid (JA) levels did not increase in response to salt stress. It is concluded that although ABA deficiency can severely affect plant growth and water relations in aba3 mutants, these plants modulate, among other processes, leaf growth and SA levels, which help them withstand moderate doses of salt stress.
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