Rania Jbir scite author profile

It has been established that drought-responsive element binding (DREB) proteins correspond to transcription factors which play important regulatory roles in plant response to abiotic and biotic stresses. In this study, a novel cDNA encoding DREB transcription factor, designated StDREB1, was isolated from potato (Solanum tuberosum L.). This protein was classified in the A-4 group of DREB subfamily based on multiple sequence alignments and phylogenetic characterization. Semi-quantitative RT-PCR showed that StDREB1 is expressed in leaves, stems, and roots under stress conditions and it is greatly induced by NaCl, drought, low temperature, and abscisic acid (ABA) treatments. Overexpression of StDREB1 cDNA in transgenic potato plants exhibited an improved salt and drought stress tolerance in comparison to the non-transformed controls. The enhanced stress tolerance may be associated with the increase in P5CS-RNA expression (δ (1)-pyrroline-5-carboxylate synthetase) and the subsequent accumulation of proline osmoprotectant in addition to a better control of water loss. Overexpression of StDREB1 also activated stress-responsive genes, such as those encoding calcium-dependent protein kinases (CDPKs), in transgenic potatoes under standard and high salt conditions. These data suggest that the StDREB1 transcription factor is involved in the regulation of salt stress tolerance in potato by the activation of different downstream gene expression.

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The StDREB1 transcription factor is involved in oxidative stress response and enhances tolerance to salt stress

Bouaziz

Jbir

Charfeddine

et al. 2014

Plant Cell Tiss Organ Cult

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We have shown previously that the potato dehydration responsive element binding (StDREB1) transcription factor plays an important role in regulating and improving salt and drought stress-response genes in potato plant. To further characterize StDREB1 involvement in stress response, we focuse here on the investigation of the StDREB1 target genes by an Electrophoretic mobility shift assay. The data obtains indicated that the StDREB1 protein can bind to both GCC and DRE boxes in the promoter sequence of target genes, suggesting that this transcription factor may play a key role in the response to abiotic-and biotic-stresses by the activation of the DRE-and GCCmediated signaling pathways. In a second step, since some DREB factors were related to the oxidative stress response, we showed that H 2 O 2 treatment led to a significant increase of StDREB1 expression in wild-type potato plants. Moreover, the analysis of the oxidative stress response of StDREB1 transgenic potato plants revealed lower levels of H 2 O 2 and malondialdehyde than wild-type control plants submitted in vitro to salt stress. An increase in the antioxidant enzyme activities including superoxide dismutase (SOD) and catalase was also observed in StDREB1 plants. In addition, an enhanced expression of the Cu/Zn SOD gene was noticed in these StDREB1 transgenic plants, cultivated under salt stress conditions. These results suggest that StDREB1 plays an essential role in the regulation of stress-response by regulating the oxidative stress response. The involvement of this transcription factor in the activation of osmoprotectant synthesis was also confirmed.

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Genome Wide Identification, Molecular Characterization, and Gene Expression Analyses of Grapevine NHX Antiporters Suggest Their Involvement in Growth, Ripening, Seed Dormancy, and Stress Response

et al. 2019

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Identification and functional characterization of ten AP2/ERF genes in potato

Bouaziz

Charfeddine

Jbir

et al. 2015

Plant Cell Tiss Organ Cult

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Ethylene-responsive element-binding factors (ERF) constitute one of the largest transcription factor families in plants. In this study, we describe the cloning and the characterization of ten cDNAs encoding ERF factors from potato. The alignment of their AP2/ERF (Apetala2/ethylene-responsive factor) domain led to the identification of six StERFs (Solanum tuberosum ERFs) and four StDREBs (dehydration responsive element binding). The phylogeny and the sequence characterization allowed the classification of these StERFs into five ERF families. Expression analysis by semi-quantitative RT-PCR of these genes revealed that most of them are induced by hormone treatment such as abscisic acid, ethephon, jasmonic acid and salicylic acid. However, salt stress induced the expression of all StDREB but only three StERF genes. These results suggest that these transcription factors are involved in salt stress response. The StDREB1 and StDREB2 genes showed strong increase in expression in response to drought stress. In an attempt to improve drought tolerance in potato, we overexpressed StDREB1 and StDREB2 in transgenic potato plants (S. tuberosum L. Group Tuberosum) cv. Belle de Fontenay (BF15) and Spunta, respectively. The level of drought tolerance of these transgenic lines was significantly greater than that of wild-type control plants as measured by relative water content H 2 O 2 content, free proline and total soluble sugars. The results suggest that the StDREB1 and StDREB2 as AP2/ERF transcription factors may play dual roles in response to drought stress in potato.

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Brittle leaf disease induces an oxidative stress and decreases the expression of manganese-related genes in date palm (Phoenix dactylifera L.)

Saidi

Jbir

Ghorbel

et al. 2012

Plant Physiology and Biochemistry

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Rania Jbir

Overexpression of StDREB1 Transcription Factor Increases Tolerance to Salt in Transgenic Potato Plants

The StDREB1 transcription factor is involved in oxidative stress response and enhances tolerance to salt stress

Genome Wide Identification, Molecular Characterization, and Gene Expression Analyses of Grapevine NHX Antiporters Suggest Their Involvement in Growth, Ripening, Seed Dormancy, and Stress Response

Identification and functional characterization of ten AP2/ERF genes in potato

Brittle leaf disease induces an oxidative stress and decreases the expression of manganese-related genes in date palm (Phoenix dactylifera L.)

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