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Publication
Inducible and constitutive expression of HvCBF4 in rice leads to differential gene expression and drought tolerance
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Advisor(s)
Abstract(s)
The effects of the ectopic expression of a barley transcription factor (HvCBF4) under the control of a constitutive
(maize Ubi1) or a stress-inducible (Arabidopsis RD29A) promoter in the abiotic stress response in rice (Oryza sativa
L.) was investigated. The transformed plants were analyzed both at molecular and physiological level and the
AtRD29A::HvCBF4 plants were further analyzed using the GeneChip® rice genome array under control conditions.
Only the plants constitutively expressing HvCBF4 have shown increased survival to drought stress, but not to cold or
high-salinity. These plants have also shown better photosynthetic capacity, as determined by chlorophyll fluorescence.
Plants expressing AtRD29A::HvCBF4 did not show increased survival to any of the stresses applied. However in the
GeneChip® microarray, these plants have shown up-regulation of many stress-responsive genes (> 400) as compared to
non-transformed plants. Interestingly, RT-PCR analysis revealed not only differential gene expression between roots
and shoots, but also between transgenic lines with the different promoters. Our results indicate that different HvCBF4
expression levels resulted in different transcriptomes and drought tolerance. Given that AtRD29A::HvCBF4 plants did
not show increased tolerance to any of the imposed stresses, we may conclude that this promoter may be inappropriate
for rice transformation aiming for enhanced abiotic stress tolerance.
Description
Keywords
Food Composition Chlorophyll Fluorescence Microarrays Analysis Oriza Sativa Transcription Factors Transformation Abiotic Stress
Pedagogical Context
Citation
Biologia Plantarum 55 (4): 653-663, 2011