Auxin controls multiple aspects of plant growth and development. However, its role in stress responses remains poorly understood. Auxin acts on the transcriptional regulation of target genes, mainly through Auxin Response Factors (). This study focuses on the involvement of in tomato tolerance to salinity and osmotic stress. Using a reverse genetic approach, we found that the antisense down-regulation of promotes root development and density, increases soluble sugars content and maintains chlorophyll content at high levels under stress conditions. Furthermore, -as displayed higher tolerance to salt and osmotic stress through reduced stomatal conductance coupled with increased leaf relative water content and Abscisic acid (ABA) content under normal and stressful conditions. This increase in ABA content was correlated with the activation of ABA biosynthesis genes and the repression of ABA catabolism genes. and genes were up-regulated in -as plants which can result in a better tolerance to salt and osmotic stress. A CRISPR/Cas9 induced mutant showed similar growth and stomatal responses as -as plants, which suggest that can tolerate salt and osmotic stresses. Our data support the involvement of as a key factor in tomato tolerance to salt and osmotic stresses and confirm the use of CRISPR technology as an efficient tool for functional reverse genetics studies.
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| http://dx.doi.org/10.3390/genes11030272 | DOI Listing |
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