Your search keyword '"Soliman, Mona H."' showing total 6 results

1. Exogenous application of β-sitosterol mediated growth and yield improvement in water-stressed wheat (Triticum aestivum) involves up-regulated antioxidant system

Author

Elkeilsh, Amr, Awad, Yasser M., Soliman, Mona H., Abu-Elsaoud, Abdelghafar, Abdelhamid, Magdi T., and El-Metwally, Ibrahim M.

Published

2019

2. Impact of Plantago ovata Forsk leaf extract on morpho-physio-biochemical attributes, ions uptake and drought resistance of wheat (Triticum aestivum L.) seedlings.

Author

Alharbi, Khadiga, Alhaithloul, Haifa Abdulaziz Sakit, Alayafi, Aisha A. M., Al-Taisan, Wafa'a A., Alghanem, Suliman Mohammed, Al-Mushhin, Amina A. M., Soliman, Mona H., Alsubeie, Moodi Saham, Vodnar, Dan C., and Marc, Romina Alina

Subjects

NUTRITIONAL assessment, PLANTAGO, PHOTOSYNTHETIC pigments, OXIDANT status, SEEDLINGS, WHEAT

Abstract

The present study was conducted to examine the potential role of Plantago ovata Forsk leaf extract (POLE) which was applied at various concentration levels (control, hydropriming, 10, 20, 30, and 40% POLE) to the wheat (Triticum aestivum L.) seedlings. Drought stressed was applied at 60% osmotic potential (OM) to the T. aestivum seedlings to study various parameters such as growth and biomass, photosynthetic pigments and gas exchange characteristics, oxidative stress and response of various antioxidants and nutritional status of the plants. Various growth parameters such as gaseous exchange attributes, antioxidants and nutritional status of T. aestivum were investigated in this study. It was evident that drought-stressed condition had induced a negative impact on plant growth, photosynthetic pigment, gaseous exchange attributes, stomatal properties, and ion uptake by different organs (roots and shoots) of T. aestivum. The decrease in plant growth resulted from oxidative stress and overcome by the antioxidant (enzymatic and non-enzymatic) compounds, since their concentration increased in response to dehydration. Seed priming with POLE positively increased plant growth and photosynthesis, by decreasing oxidative stress indicators and increasing activities of antioxidant (enzymatic and non-enzymatic) compounds, compared to the plants which were grown without the application of POLE. Our results also depicted that optimum concentration of POLE for T. aestivum seedlings under drought condition was 20%, while further increase in POLE (30 and 40%) induced a non-significant (P < 0.05) effect on growth (shoot and root length) and biomass (fresh and dry weight) of T. aestivum seedling. Here we concluded that the understanding of the role of seed priming with POLE in the increment of growth profile, photosynthetic measurements and nutritional status introduces new possibilities for their effective use in drought-stressed condition and provides a promising strategy for T. aestivum tolerance against drought-stressed condition. [ABSTRACT FROM AUTHOR]

Published

2022

3. Responses of wheat and barley to Acacia saligna leaf and stem extracts: influence on growth and ascorbate-glutathione cycle.

Author

ALHAITHLOUL, Haifa Abdulaziz Sakit and SOLIMAN, Mona H.

Subjects

*BETAINE, *WHEAT, *BARLEY, *ACACIA, *GLUTATHIONE reductase, *LEACHATE, *CAROTENOIDS

Abstract

The present study aimed to study the effect of dry leaf and stem leachates of Acacia saligna on wheat's growth and enzyme functioning (Triticum aestivum) and barley (Hordeum vulgare). Leaf leachates (LL) and stem leachates (SL) of A. saligna were applied through root and nutrient solution in different concentrations i.e., 5, 10, and 15%. Treatment of LL and SL declined the growth in terms of height and dry weight in both tested plants in concentration-dependent manner with the maximal decline due to 15% LL. In addition, content of relative water, total chlorophylls, and carotenoids decreased in both wheat as well as barley. The activity of ascorbate peroxidase, monodehydro ascorbate reductase, dehydroascorbate reductase, and glutathione reductase increased considerably due to the treatment of LL and SL. The indigenous tolerance mechanisms in wheat and barley seedlings were further strengthened in wheat and barley by increased accumulation of glycine betaine, glutathione, and ascorbate in response to LL and SL treatment. Additionally, the activity of lipoxygenase and protease were increased significantly due to LL and SL treatment with a maximal increase at higher concentrations. From the present study it can be concluded that extracts of leaf and stem of A. saligna inhibit the growth of wheat and barley significantly with a concomitant increase in the functioning of the ascorbate-glutathione (AsA-GSH) cycle. Further, both crop species showed comparable responses to A. saligna leachates. [ABSTRACT FROM AUTHOR]

Published

2022

4. Selenium protects wheat seedlings against salt stress-mediated oxidative damage by up-regulating antioxidants and osmolytes metabolism.

Author

Elkelish, Amr A., Soliman, Mona. H., Alhaithloul, Haifa A., and El-Esawi, Mohamed A.

Subjects

*CROPS, *CHLOROPHYLL synthesis, *SELENIUM, *WHEAT, *PLANT yields, *CHLOROPHYLL

Abstract

Abstract Salinity stress hampers the growth of most crop plants and reduces yield considerably. Therefore, experiments were conducted on wheat (Triticum aestivum L.) plants for studying the role of selenium (5 and 10 μM Se) supplementation in strengthening the salinity stress tolerance. Exposure to salinity (100 mM NaCl) reduced growth in terms of length, fresh and dry biomass yield. Se was affective in ameliorating the deleterious effects of NaCl stress to significant levels when supplied at 5 μM concentrations compared to 10 μM. Application of Se at 5 μM concentration did not show significant impacts on the physiological and biochemical parameters studied. Plants supplemented with 5 μM Se exhibited the highest RWC, chlorophyll synthesis, and photosynthesis. Se supplementation reduced the NaCl-mediated oxidative damage by up-regulating the activity of enzymatic components of the antioxidant system and the accumulation of ascorbate and glutathione. Furthermore, 5 μM Se proved beneficial in enhancing proline and sugar accumulation in normal and NaCl-stressed seedlings providing extra osmolarity to maintain RWC and protect photosynthesis. Se also affected proline metabolism by modulating the activities of the γ-glutamyl kinase (γ-GK) and proline oxidase (PROX) leading to its greater synthesis and lesser degradation. Moreover, it was observed that Se declined the Na/K ratio and also improved nitrogen and Ca uptake. Conclusively, Se at low concentration can be beneficial in preventing salinity-mediated damage and further studies are required to unravel underlying mechanisms. Highlights • Salinity hampers growth of wheat plants and affects photosynthesis considerably. • Selenium (Se) improved salinity tolerance in wheat when applied at low (5 μM) concentration. • Se up-regulates antioxidant system, enhances the synthesis of osmolytes, and prevents excess accumulation of Na+. [ABSTRACT FROM AUTHOR]

Published

2019

5. Effect of gibberellic acid on growth, photosynthesis and antioxidant defense system of wheat under zinc oxide nanoparticle stress.

Author

Iftikhar, Azka, Ali, Shafaqat, Yasmeen, Tahira, Arif, Muhammad Saleem, Zubair, Muhammad, Rizwan, Muhammad, Alhaithloul, Haifa Abdulaziz S., Alayafi, Aisha A.M., and Soliman, Mona H.

Subjects

NANOPARTICLE toxicity, ZINC oxide, GIBBERELLIC acid, PLANT biomass, WHEAT, INDIUM gallium zinc oxide, PLANT enzymes, POISONOUS plants

Abstract

The production and soil accumulation of nanoparticles (NPs) from the industrial sector has increased concerns about their toxic effects in plants which needs the research to explore the ways of reducing NPs toxicity in pants. The gibberellic acid (GA) has been found to reduce abiotic stresses in plants. However, the effect of GA in reducing zinc oxide (ZnO) NPs-mediated toxicity in plants remains unclear. In this study, foliar application of GA was used to explore the possible role in reducing ZnO NPs toxicity in wheat (Triticum aestivum L.) plants. The plants were grown in pots spiked with ZnO NPs (0, 300, 600, 900, 1200 mg/kg) and GA (0, 100, 200 mg/L) was foliar sprayed at different times during the growth period under ambient environmental conditions. Our results demonstrated that GA inhibited the toxicity of ZnO NPs in wheat especially at higher levels of NPs. The GA application improved the plant biomass, photosynthesis, nutrients, and yield under ZnO NPs stress. The GA reduced the Zn accumulation, and reactive oxygen species generation in plants caused by toxicity of NPs. The protective effect of GA in decreasing ZnO NPs-induced oxidative stress was related to GA-mediated enhancement in antioxidant enzymes in plants. The role of GA in enhancing tolerance of wheat against ZnO NPs was further confirmed by the enhancement in nutrient contents in shoots and roots of wheat. Overall, our study provides the evidence that GA can reduce ZnO NPs-induced toxicity in wheat and probably in other crops which needs further in-depth investigation. Image 1 • Gibberellic acid (GA) can alleviate ZnO NPs-induced growth inhibition of wheat. • GA increased the chlorophyll contents in wheat under ZnO NPs stress. • GA increased P, K, Fe and Mn and decreased Zn concentrations in wheat under ZnO NPs stress. • GA alleviates ZnO NPs-induced oxidative stress by mediating antioxidant system in wheat. Gibberellic acid alleviated the zinc oxide nanoparticles-induced toxicity in wheat by enhancing biomass, photosynthesis and by reducing oxidative stress in plants. [ABSTRACT FROM AUTHOR]

Published

2019

6. Jasmonic acid priming and foliar application of spermidine up-regulates the tolerance mechanisms to alleviate the damaging effects of cadmium stress on growth and photosynthesis in wheat.

Author

ALHARBI, Khadiga, KHAN, Muhammad I., ALGHANEM, Suliman M. S., BEGUM, Naheeda, ALRASHIDI, Ayshah A., ALAKLABI, Abdullah, ALNUSAIRI, Ghalia S. H., ALSUDAYS, Ibtisam M., KHAN, Imtiaz, and SOLIMAN, Mona H.

Subjects

*JASMONIC acid, *SECONDARY metabolism, *ENZYME metabolism, *VITAMIN C, *OXIDATIVE stress

Abstract

The study examined the effects of jasmonic acid (100 nmol, JA) priming and foliar application of spermidine (1 mM, Spd), both individually and combined, on mitigating cadmium (100 μM, Cd) stress- induced oxidative damage in wheat. Cadmium stress reduced plant height and dry mass, but JA priming and/or Spd treatment increased resistance. Cd stress significantly decreased carotenoids, total chlorophylls, glutamate 1-semialdehyde (GSA), and δ-aminolevulinic acid (ALA), but JA and Spd treatments counteracted these reductions. Photosynthetic parameters improved under JA and Spd treatments, with combined treatment showing greater alleviation. Cd exposure increased lipid peroxidation, hydrogen peroxide, electrolyte leakage, and superoxide, but these oxidative stress indicators were significantly reduced after JA and Spd treatment. Antioxidant enzyme activity was upregulated by JA priming and Spd application, both under unstressed and Cd-stressed conditions. JA and/or Spd treatments also increased ascorbic acid, lowered glutathione concentration, and upregulated glyoxylase activity, reducing methylglyoxal accumulation. Additionally, secondary compounds (phenols and flavonoids) and osmolytes (proline and glycine betaine) levels improved. Proline oxidase activity decreased, indicating controlled proline buildup, while γ-glutamyl kinase activity increased. JA and/or Spd treatments significantly reduced Cd accumulation in seedlings. The study concluded that JA and Spd treatments enhance the plant's defensive mechanisms against oxidative stress by boosting antioxidant enzymes and secondary metabolism. [ABSTRACT FROM AUTHOR]

Published

2024