Exogenous application of gibberellic acid participates in up-regulation of lipid biosynthesis under salt stress in rice

The present study investigated the role of tebuconazole (TEB) and trifloxystrobin (TRI) on cucumber plants (Cucumis sativus L. cv. Tokiwa) under salt stress (60 mM NaCl). The cucumber plants were grown semi-hydroponically in a glasshouse. Plants were exposed to two different doses of fungicides (1.375 µM TEB + 0.5 µM TRI and 2.75 µM TEB + 1.0 µM TRI) solely and in combination with NaCl (60 mM) for six days. The application of salt phenotypically deteriorated the cucumber plant growth that caused yellowing of the whole plant and significantly destructed the contents of chlorophyll and carotenoids. The oxidative damage was created under salinity by increasing the contents of malondialdehyde (MDA), hydrogen peroxide (H2O2), and electrolytic leakage (EL) resulting in the disruption of the antioxidant defense system. Furthermore, in the leaves, stems, and roots of cucumber plants increased Na+ content was observed under salt stress, whereas the K+/Na+ ratio and contents of K+, Ca2+, and Mg2+ decreased. In contrast, the exogenous application of TEB and TRI reduced the contents of MDA, H2O2, and EL by improving the activities of enzymatic and non-enzymatic antioxidants. In addition, ion homeostasis was regulated by reducing Na+ uptake and enhanced K+ accumulation and the K+/Na+ ratio after application of TEB and TRI. Therefore, this study indicates that the exogenous application of TEB and TRI enhanced salt tolerance in cucumber plants by regulating reactive oxygen species production and antioxidant defense systems.

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Melatonin-Mediated Regulation of Growth and Antioxidant Capacity in Salt-Tolerant Naked Oat under Salt Stress

International Journal of Molecular Sciences ◽

10.3390/ijms20051176 ◽

2019 ◽

Vol 20 (5) ◽

pp. 1176 ◽

Cited By ~ 14

Author(s):

Wenying Gao ◽

Zheng Feng ◽

Qingqing Bai ◽

Jinjin He ◽

Yingjuan Wang

Keyword(s):

Salt Stress ◽

Antioxidant Capacity ◽

Stress Responses ◽

Nacl Stress ◽

Mitogen Activated Protein Kinase ◽

Naked Oat ◽

Exogenous Application ◽

Transcription Factor Genes ◽

Mitogen Activated Protein

Melatonin (MT; N-acetyl-5-methoxytryptamine) is a pleiotropic signaling molecule that has been demonstrated to play an important role in plant growth, development, and regulation of environmental stress responses. Studies have been conducted on the role of the exogenous application of MT in a few species, but the potential mechanisms of MT-mediated stress tolerance under salt stress are still largely unknown. In this study, naked oat seedlings under salt stress (150 mM NaCl) were pretreated with two different concentrations of MT (50 and 100 μM), and the effects of MT on the growth and antioxidant capacity of naked oat seedlings were analyzed to explore the regulatory effect of MT on salt tolerance. The results showed that pretreating with different concentrations of MT promoted the growth of seedlings in response to 150 mM NaCl. Different concentrations of MT reduced hydrogen peroxide, superoxide anion, and malondialdehyde contents. The exogenous application of MT also increased superoxide dismutase, peroxidase, catalase, and ascorbate peroxide activities. Chlorophyll content, leaf area, leaf volume, and proline increased in the leaves of naked oat seedlings under 150 mM NaCl stress. MT upregulated the expression levels of the lipid peroxidase genes lipoxygenase and peroxygenase, a chlorophyll biosynthase gene (ChlG), the mitogen-activated protein kinase genes Asmap1 and Aspk11, and the transcription factor genes (except DREB2), NAC, WRKY1, WRKY3, and MYB in salt-exposed MT-pretreated seedlings when compared with seedlings exposed to salt stress alone. These results demonstrate an important role of MT in the relief of salt stress and, therefore, provide a reference for managing salinity in naked oat.

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Alleviation of salt stress using gibberellic acid in Chinese cabbage

Acta Agronomica Hungarica ◽

10.1556/aagr.60.2012.4.5 ◽

2012 ◽

Vol 60 (4) ◽

pp. 345-355 ◽

Cited By ~ 2

Author(s):

M. Jamil ◽

M. Ashraf ◽

E. Rha

Keyword(s):

Salt Stress ◽

Gibberellic Acid ◽

Chinese Cabbage ◽

Germination Rate ◽

Harmful Effect ◽

Seed Priming ◽

Nacl Stress ◽

Growth And Yield ◽

Distilled Water ◽

Membrane Injury

Salinity reduces plant growth and yield by affecting morphological and physiological processes. To alleviate the harmful effects of salt stress various approaches involving plant hormones are used. In this study several parameters involving the measurement of cell membrane injury were used to observe whether stress tolerance could be enhanced in Chinese cabbage (B. oleracea capitata L. Chinensis group) by soaking the seeds for 10 h in distilled water (control), or in 100, 150 or 200 mg l−1 gibberellic acid (GA3). The NaCl concentrations were 0 (control), 50, 100 and 150 mM. Seed treated with GA3 showed increased water uptake and decreased electrolyte leakage as compared to that of distilled water-primed seeds even 24 h after soaking under control conditions. Seed priming with GA3 increased the final germination and the germination rate (1/t50, where t50 is the time to 50% germination) under salt stress conditions. Seed priming also alleviated the harmful effect of salt stress on cabbage in terms of fresh and dry weights. Leaf area was higher in plants raised from seeds primed with the higher GA3 concentrations as compared with those raised from seeds treated with distilled water under control conditions (without NaCl) or at 50 mM NaCl stress. The chlorophyll content increased with the NaCl concentration, especially in plants grown from seeds primed with GA3. Plants grown from GA3-primed seeds also suffered lower cellular injury both under control conditions and under NaCl stress.

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Modulation of ion uptake in tomato (Lycopersicon esculentum L.) plants with exogenous application of calcium under salt stress condition

Poljoprivreda ◽

10.18047/poljo.22.2.7 ◽

2016 ◽

Vol 22 (2) ◽

pp. 40-49 ◽

Cited By ~ 5

Author(s):

Khursheda Parvin ◽

◽

Kamal Uddin Ahamed ◽

Mohammad Mahbub Islam ◽

Nazmul Haque

Keyword(s):

Salt Stress ◽

Lycopersicon Esculentum ◽

Stress Condition ◽

Ion Uptake ◽

Salt Stress Condition ◽

Exogenous Application

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Effect of exogenous application of glycine betaine on tomato plants subjected to salt stress

Acta Horticulturae ◽

10.17660/actahortic.2019.1253.6 ◽

2019 ◽

pp. 41-48

Author(s):

T.K. Sajyan ◽

W. Allaw ◽

N. Shaban ◽

Y.N. Sassine

Keyword(s):

Salt Stress ◽

Glycine Betaine ◽

Tomato Plants ◽

Exogenous Application

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Morpho-physiological and molecular responses of two Libyan bread wheat cultivars to plant growth regulators under salt stress

Italian Journal of Agronomy ◽

10.4081/ija.2020.1633 ◽

2020 ◽

Vol 15 (3) ◽

Author(s):

El Hadi Hadia ◽

Amor Slama ◽

Leila Romdhane ◽

Hatem Cheikh M’hamed ◽

Ahmed Houssein Abodoma ◽

...

Keyword(s):

Gene Expression ◽

Salt Stress ◽

Plant Growth ◽

Gibberellic Acid ◽

Plant Growth Regulators ◽

Bread Wheat ◽

Growth Regulators ◽

Glycine Betaine ◽

Growth Yield ◽

Wheat Varieties

To study the effects of salt stress and plant growth regulators (kinetin, gibberellic acid, potassium) on growth, yield, glycine betaine content, phosphoenolpyruvate carboxylase (PEPC) and ribulose biphosphate carboxylase (RBC) gene expression of two Libyan bread wheat varieties, a factorial design of greenhouse experiment with three replications was conducted. Results revealed that salt stress significantly reduced plant growth and productivity of both varieties. Moreover, the addition of kinetin + potassium and gibberellic acid + potassium had improved the performance of the morpho-metric parameters of both genotypes under salt stress; but the performance was more effective for kinetin treatment than for gibberellic acid. At the biochemical level, the results showed that salt stress increased glycine betaine contents in both varieties with different proportions. This increase is more elevated in the presence of kinetin + potassium than the treatment with gibberellic acid+ potassium, which showed an almost similar result as in only salt stress. At the molecular level, the effects of salt stress and plant growth regulators on the PEPC and RBC gene expression showed that the increase was significantly higher for kinetin, gibberellic acid, and salt stress when compared to the control.

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