Your search keyword '"Hanana, Mohsen"' showing total 11 results

1. Combined effects of salinity and soil drying on growth, water, status, and photosynthesis in Medicago ciliaris and Medicago polymorpha.

Author

Gharred, Jihed, Talbi Zribi, Ons, Derbali, Imed, Zorrig, Walid, Badri, Mounawer, Hanana, Mohsen, Debez, Ahmed, Abdelly, Chedly, Koyro, Hans-Werner, and Slama, Inès

Published

2024

2. Allopathic potential of essential oil extracts on weeds germination and seedlings growth in sustainable agriculture: the phytochemical study of Tunisia's two Melaleucaspecies.

Author

Khedhri, Sana, Khammassi, Marwa, Amri, Ismail, Mabrouk, Yassine, Hanana, Mohsen, Gargouri, Samia, and Hamrouni, Lamia

Published

2024

3. NaCl effect on Cd accumulation and cell compartmentalization in barley.

Author

Ayachi, Imen, Ghabriche, Rim, Zineb, Ameni ben, Hanana, Mohsen, Abdelly, Chedly, and Ghnaya, Tahar

Subjects

POISONS, BARLEY, SALT, PLANT biomass, EFFECT of salt on plants, PLANT translocation, BIOMASS production

Abstract

The effect of sodium chloride (NaCl) on cadmium (Cd) tolerance, uptake, translocation, and compartmentation was investigated in 3 barley genotypes. Seedlings were cultivated hydroponically in the absence of NaCl and Cd (control), in the presence of 50 mM NaCl alone, in the presence of 10 µM Cd alone, and in the combined addition of NaCl (50 mM) and Cd (10 µM). Plants were cultivated during one month under 16 h light period at a minimal light intensity of 250 µmol m−2 s−1, a temperature of 25 ± 3 °C, and 70–80% of relative humidity. Results showed that NaCl alone did not significantly affect plant development and biomass production; however, Cd alone reduced plant development rate leading to a decline in biomass production in Raihane and Giza 127 but did not affect that in Amalou. NaCl addition in Cd-treated plants accentuated the Cd effect on plant growth. NaCl limited Cd accumulation in the roots and in the shoots in all tested barley varieties by reducing Cd-absorption efficiency and the translocation of Cd from the root to the shoot. In all Cd-treated plants, cell Cd compartmentalization showed the following gradient: organelles < cell wall < vacuole. NaCl in the medium increased Cd accumulation in the soluble fraction and reduced that in organelle and cell wall fractions. Globally our results showed that, although NaCl reduces Cd accumulation in barley, it accentuates the Cd toxic effects, hence limiting the plant yield. We advise farmers to avoid barley cultivation near mine sites and its irrigation with moderately salty water, although this plant is considered as salt tolerant. [ABSTRACT FROM AUTHOR]

Published

2023

4. Assessment of population structure, genetic diversity and relationship of Mediterranean olive accessions using SSR markers and computational tools.

Author

Ben Ayed, Rayda, Ercişli, Sezai, Hanana, Mohsen, Rebai, Ahmed, and Moreau, Fabienne

Subjects

GENETIC variation, OLIVE, BIOLOGICAL evolution, SPECIES diversity, PLANT breeding, BAYESIAN analysis

Abstract

Olive tree is an emblematic crop of the Mediterranean region, mainly renowned for its fruit oil, although the species provides several industrial purposes. The Mediterranean basin constitutes the origin of olive species diversification and represents a valuable source of genetic variability of olive germplasm. Therefore, the evaluation of the diversity and the population structure of this Mediterranean germplasm is a challenge for olive species preservation, crop breeding and genetic improvement. In this context, our study aims to analyze the genetic diversity and the population structure of 79 Mediterranean olive accessions using 15 genomic SSRs and by applying computational model-based approaches. The used SSRs revealed a total number of 225 alleles with a mean of 15 alleles per locus. Observed and expected heterozygosity (Ho = 0.79, He = 0.805) with a Polymorphism Information Content value of 0.775 indicate high level of genetic diversity. All results of the Unweighted Pair Group Method with Arithmetic (UPGMA), Jaccard similarity index, Principal Coordinate Analysis (PCoA) and the Bayesian analyses supported the separation of the Mediterranean varieties in two sub-populations, one of which mainly composed by Spanish accessions. [ABSTRACT FROM AUTHOR]

Published

2022

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

Author

Ayadi, Mariem, Martins, Viviana, Ben Ayed, Rayda, Jbir, Rania, Feki, Molka, Mzid, Rim, Géros, Hernâni, Aifa, Sami, and Hanana, Mohsen

Subjects

SEED dormancy, GENE expression, GENOMES, FRUIT ripening, TRANSCRIPTION factors, LIGHT elements, ABSCISIC acid, GRAPES

Abstract

Plant NHX antiporters are critical for cellular pH, Na+, and K+ homeostasis and salt tolerance. Even though their genomic and functional studies have been conducted in many species, the grapevine NHX family has not been described yet. Our work highlights the presence of six VvNHX genes whose phylogenetic analysis revealed their classification in two distinct groups: group I vacuolar (VvNHX1–5) and group II endosomal (VvNHX6). Several cis-acting regulatory elements related to tissue-specific expression, transcription factor binding, abiotic/biotic stresses response, and light regulation elements were identified in their promoter. Expression profile analyses of VvNHX genes showed variable transcription within organs and tissues with diverse patterns according to biochemical, environmental, and biotic treatments. All VvNHXs are involved in berry growth, except VvNHX5 that seems to be rather implicated in seed maturation. VvNHX4 would be more involved in floral development, while VvNHX2 and 3 display redundant roles. QPCR expression analyses of VvNHX1 showed its induction by NaCl and KNO3 treatments, whereas VvNHX6 was induced by ABA application and strongly repressed by PEG treatment. VvNHX1 plays a crucial role in a bunch of grape developmental steps and adaptation responses through mechanisms of phyto-hormonal signaling. Overall, VvNHX family members could be valuable candidate genes for grapevine improvement. [ABSTRACT FROM AUTHOR]

Published

2020

6. Ectopic expression of a grape vine vacuolar NHX antiporter enhances transgenic potato plant tolerance to salinity.

Author

Charfeddine, Safa, Charfeddine, Mariam, Hanana, Mohsen, and Gargouri-Bouzid, Radhia

Abstract

Salinity is a crucial environmental constraint that reduces plant productivity. However, plants activate different signaling pathways to overcome the abiotic stress. The NHX (Na+/H+ exchanger) antiporter corresponds to one of the antiporters involved in response to salinity. They are known to be responsible for the vacuole compartmentation of toxic Na+. In this report, a grapevine vacuolar antiporter (VvNHX1) cDNA was introduced into potato, response of transgenic plants to salinity was evaluated under in vitro and greenhouse culture conditions. The transgenic plants showed higher growth rate than wild type (WT) after the salinity treatment suggesting an improved tolerance both in vitro and under greenhouse culture conditions. In addition, a lower oxidative stress level was observed while a higher relative water and soluble sugar content were measured in transgenic plants compared to WT plants. Furthermore, in contrast to WT plants, the transgenic plants displayed an increase of leaf ion (K+, Mg2+) content and a decline in Na+ accumulation. The increase in the antioxidant enzyme activities in transgenic plants suggests that they can overcome oxidative stress resulting from salt treatment. The measurement of the tuber yield and the weight loss of plants sprinkled with 100 mM NaCl in the greenhouse showed a low negative effect on transgenic plants (12.5 and 40%) in comparison to WT (80%). [ABSTRACT FROM AUTHOR]

Published

2019

7. Genetic diversity in barley landraces ( Hordeum vulgare L. subsp. vulgare) originated from Crescent Fertile region as detected by seed storage proteins.

Author

MZID, RIM, CHIBANI, FARHAT, AYED, RAYDA, HANANA, MOHSEN, BREIDI, JOELLE, KABALAN, RABIH, EL-HAJJ, SAMIH, MACHLAB, HASSAN, REBAI, AHMED, and CHALAK, LAMIS

Subjects

BARLEY genetics, GRASS genetics, HORDEUM, HORDEIN, GLYCOPROTEINS, GENETIC polymorphisms

Abstract

The article presents a study which examined the genetic diversity of Lebanese barley landraces or Hordeum vulgare L. subsp. using biochemical markers as hordeins. Topics covered include analysis of hordein banding patterns, polymorphisms of hordein bands, and genetic similarities and cluster analysis of Lebanese barley landraces.

Published

2016

8. Copper homeostasis in grapevine: functional characterization of the Vitis vinifera copper transporter 1.

Author

Martins, Viviana, Bassil, Elias, Hanana, Mohsen, Blumwald, Eduardo, and Gerós, Hernâni

Subjects

VITIS vinifera, HOMEOSTASIS, AMINO acids, COPPER content of plants, SEQUENCE analysis, GENE expression, PLANT molecular biology

Abstract

Main conclusion: The Vitis vinifera copper transporter 1 is capable of self-interaction and mediates intracellular copper transport. Abstract: An understanding of copper homeostasis in grapevine ( Vitis vinifera L.) is particularly relevant to viticulture in which copper-based fungicides are intensively used. In the present study, the Vitis vinifera copper transporter 1 (VvCTr1), belonging to the Ctr family of copper transporters, was cloned and functionally characterized. Amino acid sequence analysis showed that VvCTr1 monomers are small peptides composed of 148 amino acids with 3 transmembrane domains and several amino acid residues typical of Ctr transporters. Bimolecular fluorescence complementation (BiFC) demonstrated that Ctr monomers are self-interacting and subcellular localization studies revealed that VvCTr1 is mobilized via the trans-Golgi network, through the pre-vacuolar compartment and located to the vacuolar membrane. The heterologous expression of VvCTr1 in a yeast strain lacking all Ctr transporters fully rescued the phenotype, while a deficient complementation was observed in a strain lacking only plasma membrane-bound Ctrs. Given the common subcellular localization of VvCTr1 and AtCOPT5 and the highest amino acid sequence similarity in comparison to the remaining AtCOPT proteins, Arabidopsis copt5 plants were stably transformed with VvCTr1. The impairment in root growth observed in copt5 seedlings in copper-deficient conditions was fully rescued by VvCTr1, further supporting its involvement in intracellular copper transport. Expression studies in V. vinifera showed that VvCTr1 is mostly expressed in the root system, but transcripts were also present in leaves and stems. The functional characterization of VvCTr-mediated copper transport provides the first step towards understanding the physiological and molecular responses of grapevines to copper-based fungicides. [ABSTRACT FROM AUTHOR]

Published

2014

9. Chemical composition of Eucalyptus erythrocorys essential oils and evaluation of their herbicidal and antifungal activities.

Author

Ben Ghnaya, Asma, Hanana, Mohsen, Amri, Ismail, Balti, Hazar, Gargouri, Samia, Jamoussi, Bassem, and Hamrouni, Lamia

Subjects

*BIOCHEMISTRY, *EUCALYPTUS, *ESSENTIAL oils, *ANTIFUNGAL agents, *DISTILLATION, *GAS chromatography

Abstract

The chemical composition of essential oil isolated by hydrodistillation from the leaves of Tunisian Eucalyptus erythrocorys Linn. was analyzed by gas chromatography (GC) and gas chromatography-mass spectrometry (GC/MS). Fifteen compounds were identified, representing 97 % of total oil, which was found to be rich in oxygenated monoterpenes (66.7 %), particularly in 1,8-cineole (54.8 %). The yield and the physico-chemical properties of oil were determined. The study of antifungal activity revealed that E. erythrocorys essential oil significantly inhibited the growth of five plant pathogenic fungi especially Bipolaris sorikiniana and Botritys cinerea. Moreover, herbicidal properties of the oil, tested on Sinapis arvensis L. and Phalaris canariensis L. indicated that the E. erythrocorys oil completely inhibited the seed germination at high concentration (1.5 μl/ml), while at low doses (0.25, 0.5, 0.75, 1 μl/ml) the oil acted by decreasing and delaying the germination and inhibiting the seedling growth of all tested weeds. [ABSTRACT FROM AUTHOR]

Published

2013

10. Chemical composition, phytotoxic and antifungal activities of Pinus pinea essential oil.

Author

Amri, Ismail, Gargouri, Samia, Hamrouni, Lamia, Hanana, Mohsen, Fezzani, Tarek, and Jamoussi, Bassem

Subjects

PHYTOTOXICITY, ANTIFUNGAL agents, ITALIAN stone pine, ESSENTIAL oils, CHEMICAL composition of plants, MONOTERPENES, PHYTOPATHOGENIC microorganisms

Abstract

The chemical composition of essential oils isolated by hydrodistillation from the aerial parts of Tunisian Pinus pinea Linn. was analyzed by GC and GC/MS. Sixty-six compounds were identified, representing 98.5% of total oil, which was found to be rich in monoterpene hydrocarbons (73.1%) particularly limonene (54.1%), α-pinene (7.7%), and β-pinene (3.4%). The yield and the physico-chemical properties were determined. Results of the antifungal activity study by in vitro contact assay showed that P. pinea oil significantly inhibited the growth of ten plant pathogenic fungi. Moreover, herbicidal properties of the oil, tested on Sinapis arvensis L., Lolium rigidum Gaud., and Raphanus raphanistrum L., indicated that the oil completely inhibited the seed germination at a high concentration, while at low doses the oil acted by decreasing and delaying the germination and inhibiting the seedling growth of all tested weeds unlike the commercial herbicide. Our results showed that P. pinea essential oil could be valorized as bioproduct for biocontrol of weeds and fungal plant diseases. [ABSTRACT FROM AUTHOR]

Published

2012

11. The grapevine VvWRKY2 gene enhances salt and osmotic stress tolerance in transgenic Nicotiana tabacum.

Author

Mzid, Rim, Zorrig, Walid, Ben Ayed, Rayda, Ben Hamed, Karim, Ayadi, Mariem, Damak, Yosra, Lauvergeat, Virginie, and Hanana, Mohsen

Subjects

GRAPES, TOBACCO, GENE enhancers, TRANSCRIPTION factors, ANTISENSE DNA, MALONDIALDEHYDE

Abstract

Our study aims to assess the implication of WRKY transcription factor in the molecular mechanisms of grapevine adaptation to salt and water stresses. In this respect, a full-length VvWRKY2 cDNA, isolated from a Vitis vinifera grape berry cDNA library, was constitutively over-expressed in Nicotiana tabacum seedlings. Our results showed that transgenic tobacco plants exhibited higher seed germination rates and better growth, under both salt and osmotic stress treatments, when compared to wild type plants. Furthermore, our analyses demonstrated that, under stress conditions, transgenic plants accumulated more osmolytes, such as soluble sugars and free proline, while no changes were observed regarding electrolyte leakage, H2O2, and malondialdehyde contents. The improvement of osmotic adjustment may be an important mechanism underlying the role of VvWRKY2 in promoting tolerance and adaptation to abiotic stresses. Principal component analysis of our results highlighted a clear partition of plant response to stress. On the other hand, we observed a significant adaptation behaviour response for transgenic lines under stress. Taken together, all our findings suggest that over-expression of VvWRKY2 gene has a compelling role in abiotic stress tolerance and, therefore, would provide a useful strategy to promote abiotic stress tolerance in grape via molecular-assisted breeding and/or new biotechnology tools. [ABSTRACT FROM AUTHOR]

Published

2018