Hussein Kh. Salam scite author profile

The participation of benzoate (BA), gallate (GA), and salicylate (SA) in various biochemical and physiological processes in plants under conditions of excessive boron (EB) is largely unknown to date. Here, the relationships between phenolic acids (PAs) and the regulation of redox-enzymes, the ultrastructure of cells, and boron forms in the mitigation of EB-induced oxidative stress within tomato calli were studied. Tomato calli were exposed to 2 mM boron (B) in the presence or absence of three concentrations of benzoate, gallate, and salicylate. The data showed that different concentrations of PA counteracted the inhibition of growth and oxidative stress of EB stress by reducing hydrogen peroxide (H2O2) production, lipoxygenase (LOX) activity, boron accumulation forms, cell wall thickening, and moderate concentrations were the most effective. Applications of PAs reduced the catalytic impacts of EB on superoxide dismutase (SOD) and catalase (CAT) activity. Likewise, benzoate and gallate increased the influences of EB stimulation on peroxidase (POD) and ascorbate peroxidase (APX) activities; whereas, SA reduced these effects on both enzymes. PA treatments enhanced the insignificant catalytic effect of EB on the activity of phenylalanine ammonia-lyase (PAL), as well as the stimulation of the negative influence of EB on polyphenol oxidase (PPO) activity. The findings highlight that PAs play an important role in alleviating EB stress in tomato plants by regulating redox enzymes, B-accumulation forms, and cell wall thickening. This study provides new perspectives for strategies related to excess boron tolerance in tomato plants and thus can be used as plant growth promoters.

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Effect of excess boron on growth, membrane stability, and functional groups of tomato seedlings

Radi

Salam

Hamada

et al. 2022

Acta bot. Croat. (Online)

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With the scarcity of good quality water, plants like tomatoes will be more susceptible to excess boron (EB) in Mediterranean regions. The effects of EB on the growth, free, semi-bound, and bound boron (B) concentrations, and macromolecules of the Solanum lycopersicum L. cultivar Castle Rock, were investigated in this study. Seedlings were exposed to four levels of EB using boric acid. The results manifested that EB inhibited tomato growth, total water content, and photosynthetic pigments. EB harmed the membrane stability, as seen by increased potassium (K) leakage, UV absorbance metabolites, and electrolyte conductivity (EC) in leaf disc solution. EB raised concentrations of free, semi-bound, and bound forms of B in seedlings. Fourier transform infrared spectroscopy (FTIR) data revealed that EB induced uneven wax deposition, altered the shape of cell walls, and lowered cellulose synthesis in seedlings. EB affected the amide I and amide II indicating damage to the protein pools. These results provide new insights into understanding the specific effects of EB on the functional groups of different macromolecules of tomato seedlings.

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Excess boron stress and alleviation of its toxicity in plants: mechanisms and strategies

Hamada

Farghaly

Salam

et al. 2022

Journal of Plant Nutrition

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Hussein Kh. Salam

The role of benzoic acid, gallic acid and salicylic acid in protecting tomato callus cells from excessive boron stress

Alleviating excess boron stress in tomato calli by applying benzoic acid to various biochemical strategies

Benzoate, Gallate, And Salicylate Regulate Redox-Enzymes, Ultrastructure, And Accumulation of Boron To Counteract Boron Toxicity On Tomato Callus Cells

Effect of excess boron on growth, membrane stability, and functional groups of tomato seedlings

Excess boron stress and alleviation of its toxicity in plants: mechanisms and strategies

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