| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5515431 | Plant Physiology and Biochemistry | 2017 | 11 Pages |
â¢Tomato Italian landraces show enhanced antioxidant response against drought stress.â¢Traditional landraces show constitutive increased CAT, APX and G6PDH activities.â¢Genes involved in antioxidant response show similar regulatory elements in their promoters.â¢Antioxidant enzymes rate are strictly connected with H2O2 content and leaf gas exchange.
The involvement and the efficiency of the antioxidants scavenging system upon drought were examined by comparing traditional tomato landraces with respect to an industrial commercial genotype (Red Setter); for the first time, comprehensive analyses of physiological, biochemical and molecular parameters were investigated directly under real field conditions, in a typical agricultural environment of Southern Italy.The characterization of the responses upon drought evidenced peculiar changes in stomatal conductance, ascorbate peroxidase and catalase activities and expression in drought tolerant tomato landraces, with respect to the industrial genotype.An in silico analysis (promoter and co-expression study) coupled to a phylogenetic investigation of selected enzymes was performed, reinforcing the hypothesis of a basal activation of ROS scavenging machinery in the Mediterranean landraces.Thus our data suggest a constitutive increase in the expression and activities of specific enzymes involved in ROS detoxification that can play a pivotal role in the drought response shown by tomato landraces.Therefore, traditional landraces could represent an important source of useful genetic variability for the improvement of commercial varieties; their ROS detoxifying capabilities denote peculiar aspects worth being explored to better describe their specific stress tolerance.
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