Radhia Gargouri-Bouzid

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

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 (δ1-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.

Abscisic acid and sucrose increase the protein content in date palm somatic embryos, causing changes in 2-DE profile

Various supplements (abscisic acid (ABA) or sucrose) were added to the initial embryo culture medium (M3) with the aim of improving the vigour of vitroplants deriving from date palm somatic embryogenesis. ABA (20 and 40 microM) and sucrose (90 g/l) applied for 4 and 2 weeks respectively increased embryo thickness, with no apparent difference in length. ABA (5-40 microM) increased embryo proliferation rate. Somatic embryos maintained in modified M3 (M3 supplemented with ABA and an increased sucrose concentration) contained a higher amount of protein than those maintained in initial M3 (no ABA, 30 g/l of sucrose), with a 1.5-1.7-fold increase depending on the compound and concentration assayed. The 1-D and 2-DE protein profiles showed qualitative and quantitative differences between the somatic embryos cultured in initial M3 (control) and in modified M3. Statistical analysis of spot intensity was performed by principal component analysis, yielding two accurate groups of samples and determining the most discriminating spots. Samples were also clustered using Euclidean distance with an average linkage algorithm. Thirty-four variable spots were identified using mass spectrometry analysis. Identified proteins were classified into the following functional categories: energy metabolism (five proteins); protein translation, folding and degradation (9); redox maintenance (5); cytoskeleton (3); storage protein (2); and with no assigned function as (10). While up-regulation of stress-related proteins and down-regulation of energy metabolism proteins were observed in somatic embryos matured in M3 supplemented with ABA, storage proteins (legumin) were up-regulated in somatic embryos matured in M3 supplemented with increased sucrose.

Interspecific potato somatic hybrids between Solanum berthaultii and Solanum tuberosum L. showed recombinant plastome and improved tolerance to salinity

In this study three somatic hybrid lines originating from protoplast fusion between Solanum tuberosum cv. BF15 and Solanum berthaultii were subjected to a detailed molecular analysis using the I-SSR-PCR technique based on 5′-anchored microsatellite primers. The data obtained revealed a polymorphism between the different lines, suggesting that they correspond to symmetric hybrids. The analysis of chloroplast genome of these hybrids showed that they are resulting from a recombination between parental plastomes. When transferred to a greenhouse, these hybrid lines displayed an improved vigour compared to the cultivated potato BF15 parent. Indeed, an important growth rate and high tuber yield and weight were obtained for these hybrids compared to the parent. Some of these hybrids showed also an improved ion homeostasis control and they seem to display a better tolerance to salt stress compared to the potato BF15 parent.

PVY-resistant transgenic potato plants expressing an anti-NIa protein scFv antibody

A synthetic gene encoding a single chain Fv fragment of an antibody directed against the nuclear inclusion a (NIa) protein of potato virus Y (PVY) was used to transform two commerical potato cultivars (Claustar and BF15). The NIa protease forms the nuclear inclusion body A and acts as the major protease in the cleavage of the viral polyprotein into functional proteins. Immunoblot analysis showed that most of the resulting transgenic plants accumulate high levels of the transgenic protein. Furthermore, a majority of the selected transgenic lines showed an efficient and complete protection against the challenge virus after mechanical inoculation with PVYo strain. Two transgenic lines showed an incomplete resistance with delayed appearance of symptoms accompanied by low virus titers, whereas one line developed symptoms during the first days after inoculation but recovered rapidly, leading to a low virus accumulation rate. These results confirm that expression of scFv antibody is able to inhibit a crucial step in the virus multiplication, such as polyprotein cleavage is a powerful strategy for engineered virus resistance. It can lead to a complete resistance that was not obtained previously by expression of scFv directed against the viral coat protein.

Ectopic expression of dehydration responsive element binding proteins (StDREB2) confers higher tolerance to salt stress in potato

Dehydration responsive element binding proteins (DREB) are members of a larger family of transcription factors, many of which have been reported to contribute to plant responses to abiotic stresses in several species. While, little is known about their role in potato (Solanum tuberosum). This report describes thexa0cloning and characterization of a DREB transcription factor cDNA, StDREB2, isolated from potato (cvxa0Nicola) plants submitted to salt treatment. Based on a multiple sequence alignment, this protein was classified into the A-5 group of DREB subfamily. Expression studies revealed that StDREB2 was induced in leaves, roots and stems upon various abiotic stresses and in response to exogenous treatment with abscisic acid (ABA). In agreement with this expression pattern, over-expression of StDREB2 in transgenic potato plants resulted in enhanced tolerance to salt stress. These data suggest that the isolated StDREB2 encodes a functional protein involved in plant response to different abiotic stresses. An electrophoretic mobility shift assay (EMSA) indicated that the StDREB2 protein bound specifically to the DRE core element (ACCGAGA) inxa0vitro. Moreover, Semi quantitative RT-PCR analysis revealed that the transcript level of a putative target gene i.e. δ(1)-pyrroline-5-carboxylate synthase (P5CS) was up-regulated in transgenic plants submitted to salt stress conditions. A concomitant increase in proline accumulation was also observed under these conditions. Taking together, all these data suggest that StDREB2 takes part in the processes underlying plant responses to abiotic stresses probably via the regulation of ABA hormone signaling and through a mechanism allowing proline synthesis.

Somatic hybrids between potato Solanum tuberosum and wild species Solanum verneï exhibit a recombination in the plastome

In the present survey, interspecific somatic protoplast fusion between a dihaploid cultivated potato Solanum L. tuberosum (BF15) and a wild species Solanum verneï (V3) has been performed using the PEG method. Five putative hybrids were first selected. Among them, only two were retained. DNA analysis, using flow cytometry, showed that the first hybrid (VB2) was dihaploid (2n=2x=24 chromosomes), whereas the second (VB1) was hexaploid (2n=6x=72 chromosomes). In the greenhouse, these putative hybrids showed that they were able of raising and producing large tubers but with a modified shape compared to parental ones. Furthermore, they harbored an intermediate leaf morphology compared to their parents. The hybrid nature of these plants was first confirmed according to their esterase and peroxidase isoenzyme patterns. The RAPD analysis of genomic DNA and microsatellite based amplification (I-SSR) showed that both clones VB1 and VB2 are asymmetric somatic hybrids. They seem to have eliminated the major part of V3 parental nucleus but not the totality. The analysis of chloroplast DNA suggests that both hybrid plastomes were the result of a recombination between parental ones.

Investigation of the response to salinity and to oxidative stress of interspecific potato somatic hybrids grown in a greenhouse

AbstractSalinity is one of the major stresses threatening potato plants (Solanum tuberosum L.) by affecting their growth and yield. It leads to oxidative stress by the production of reactive oxygen species responsible for alteration of macromolecules. To improve the tolerance of potato to salt stress, we have used somatic hybridization to produce interspecific potato hybrids by protoplast fusion between the BF15 variety and the wild Solanum berthaultii species. These hybrids showed an improved tolerance to salt stress when cultivated in vitro. The present work aims to analyze the response of the hybrids to salt stress in greenhouse conditions. Thus, the development of plants and their antioxidant capacity in response to salt stress were followed. All hybrids showed better growth and stable chlorophyll content compared to those of the BF15 parent plant. Membrane lipid peroxidation, evaluated by measuring the malondialdehyde accumulation (MDA) in plant organs, showed low levels in the hybrids. Higher antioxidant enzyme activities were measured in the roots of the hybrids when compared to those of the BF15 parent. These hybrids also showed an improved control of Na+ accumulation and a stable K+/Na+ ratio. These results therefore confirm the better tolerance of these hybrids to salt stress when compared to their BF15 parent.n

Identification of salt stress-induced transcripts in potato leaves by cDNA-AFLP

Potato (Solanum tuberosum L.) is highly sensitive to salt stress, which is one of the most important factors limiting plant cultivation. The investigation of plant response to high salinity was envisaged in this report using cDNA-amplified fragment length polymorphism (AFLP). This technique was applied to salt-stressed and control potato plants (cv. Nicola). The expression profiles showed approx 5000 bands. Of these, 154 were upregulated and 120 were repressed by salt stress. In this study we have only considered cDNA fragments that seem to be originated from salt-induced mRNA. Eighteen fragments were then reamplified, cloned, and sequenced. Sequence comparison of these cDNA, identified in response to salt stress in potato, revealed that some of them present homologies with proteins in other species that are involved in cell wall structure and turnover such as proline-rich proteins and β-galactosidase. A number of identified clones encoded putative stress response proteins such as NADP-dependant glyceraldehyde dehydrogenase and wound-induced protein. In addition, some of them encode proteins related to hypersensitive response against pathogens such as putative late blight and nematode as well as putative pathogenesis-related proteins. These cDNA seem to be differentially expressed in the presence of salt stress as shown by Northern blot or reverse Northern hybridization experiments.

In vitro hermaphrodism induction in date palm female flower

This study explores and reports on the gain brought to the morphogenetic aptitude of female date palm inflorescences through in vitro hermaphrodism induction. It investigates the main factors involved in the process of sex modification through hormonal induction, such as the floral developmental stage and hormone combination and concentration. It demonstrates that the vestigial stamens (staminodes) of female date palm flowers display a new and high capacity to proliferate under particular in vitro conditions, without blocking carpel’s development, leading to morphologically typical hermaphrodite flowers. This de novo activation of repressed stamens was found to occur rapidly. The isolated pollen mother cells appear in the obtained anther’s locules and undergo an ordinary microsporogenesis process. The data show that hermaphrodism induction depended heavily on both the growth regulators applied and the flower’s developmental stage. They also confirm the early theory that suggests that dioecious plants come from a hermaphrodite ancestor. Such hermaphrodism control can provide new prospects and opportunities for the investigation of the in vitro self-fertilization process. It can also be useful in improving the understanding of the genetic mechanism involved in sex organ development in date palm.

Morpho-histological study on shoot bud regeneration in cotyledon cultures of pepper (Capsicum annuum)

Adventitious organogenetic structures were produced in vitro using cotyledon explants excised from 14 day-old pepper seedlings. The best response was observed on MS medium containing 5.7 μM indole-3-acetic acid and 8.8 μM 6-benzylaminopurine. However, when transferred onto elongation medium (MS + 2.8 μM gibberellic acid), these structures frequently developed into leaf-like features rather than into normal shoots. Interestingly, the histological study conducted on the cut end of the cotyledonary petiole revealed a direct induction of numerous teratological protuberances that arise around the cut end of the explant. On the contrary, typical organized bud meristems were rarely observed. Thus, the low number of plants obtained after transfer onto elongation medium seems to be a consequence of this teratological developmental process, frequently associated with fasciated and degenerative meristems, rather than a defect in shoot development from available meristems.