Overexpression of the CBF2 transcriptional Activator Enhances Oxidative Stress Tolerance in Arabidopsis Plants

Ron Porat, Michal Sharabi-Schwager, Alon Samach

Abstract


The C-repeat/dehydration-responsive-element binding factor genes (CBF1-3) are transcriptional activators
involved in governing plant responses to low temperatures; their overexpression enhances plant frost tolerance.
We found that overexpression of CBF2 in Arabidopsis enhanced oxidative stress tolerance as compared with
wild-type plants, an effect that was manifested in: increased seed germination rates on Petri dishes containing
H2O2; delayed leaf senescence following incubation with H2O2; and delayed wilting and senescence after
spraying whole plants with paraquat, a generator of superoxide radicals. Transcript profiling analysis using the
Affymetrix ATH1 genome array revealed that overexpression of CBF2 did not affect expression of reactive
oxygen-scavenging genes but rather, remarkably enhanced expression of oxidative-stress-responsive
transcription factor genes. Overall, the present findings suggest that overexpression of CBF2 in Arabidopsis
enhances oxidative stress tolerance, most likely via activation of a network interaction among stress-related
transcription-factor genes.


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International Journal of Biology   ISSN 1916-9671(Print)   ISSN 1916-968X  (Online)

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