Exogenous arginine modulates leaf antioxidant enzymes and hydrogen peroxide content in tomato plants under transient heat stresses

Polyamines are plant metabolites involved in many processes under physiologically normal and stressful conditions. Cadaverine is one of the least studied plant polyamines. The relationship between its physiological effects and the formation of signaling mediators, in particular, reactive oxygen species (ROS), has hardly been specially studied. The aim of this work was to study the possible protective effect of cadaverine on wheat (Triticum aestivum L.) seedlings under heat stress and its relationship with the formation and detoxification of ROS by antioxidant enzymes. Etiolated seedlings of soft winter wheat variety Doskonala were used in the work. We treated three-day-old seedlings with cadaverine at concentrations ranging from 0.05 to 2.5 mM by adding it to the root incubation medium. In some variants of the experiment, we treated seedlings with a hydrogen peroxide scavenger dimethylthiourea (DMTU - 150 μM), a diamine oxidase inhibitor aminogunidine (1 mM) or an inhibitor NADPH oxidase imidazole (10 μM), as well as the indicated inhibitors in combination with cadaverine. The hydrogen peroxide content and the activity of antioxidant enzymes were determined in the roots of seedlings a certain time after treatment with the studied compounds. One day after the treatment of seedlings with cadaverine, ROS antagonists, and a combination of effectors, the seedlings were subjected to damaging heating in a water thermostat (10 min at 45 °C). 24 h after heating, we assessed the content of the products of lipid peroxidation (LPO) in the roots and, after 3 days, the survival of seedlings. Incubation in the presence of cadaverine increased the resistance of seedlings to damaging heat (See Fig. 1). The highest relative number of surviving seedlings was observed in the variant with 1 mM cadaverine treatment. Under the effect of cadaverine, the content of hydrogen peroxide in the roots increased (See Fig. 2). We observed a noticeable effect 1-4 h after the start of treatment, with a maximum after 2 h. Treatment of seedlings with a scavenger of hydrogen peroxide DMTU removed the manifestation of the effect of an increase in the content of H2 O2 in the roots caused by the action of cadaverine (See Fig. 3). This effect was also completely eliminated by the diamine oxidase inhibitor aminoguanidine and was almost unchanged in the presence of the NADPH oxidase inhibitor imidazole. The effect of heat stress on seedlings caused an increase in the content of the LPO products in them. Treatment with cadaverine markedly reduced this manifestation of oxidative stress. The antioxidant DMTU and the diamine oxidase inhibitor aminoguanidine largely neutralized the protective effect of cadaverine (See Fig. 4a). At the same time, the NADPH oxidase inhibitor imidazole had almost no effect on the manifestation of the effect of cadaverine on the LPO products content in roots. Under the influence of DMTU and aminoguanidine, but not imidazole, the positive effect of cadaverine on the survival of seedlings after damaging heating was also leveled out (See Fig. 4b). The treatment of seedlings with cadaverine caused a change in the activity of antioxidant enzymes in the roots (superoxide dismutase - SOD, catalase, and guaiacol peroxidase) (See Fig. 5). DMTU and aminoguanidine neutralized the effect of cadaverine-induced increase in the activity of catalase and guaiacol peroxidase, but had almost no effect on the increase in SOD activity in roots induced by this diamine (See Fig. 6). The NADPH oxidase inhibitor imidazole did not significantly affect the manifestation of the effect of increasing the activity of antioxidant enzymes when seedlings are treated with cadaverine. We can conclude that one of the signaling mediators involved in the regulation activity of catalase and guaiacol peroxidase and in the induction of heat resistance of wheat seedlings by exogenous cadaverine is hydrogen peroxide, which is formed during the oxidation of cadaverine by diamine oxidase. At the same time, the modification of SOD activity in the roots of wheat seedlings with cadaverine, apparently, can occur without the participation of ROS.

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EFFECT ON 6-BAP CATALASE ACTIVITY IN TOMATO PLANTS UNDER CONDITIONS OF TEMPERATURE STRESS

Samara Journal of Science ◽

10.17816/snv20152129 ◽

2015 ◽

Vol 4 (2) ◽

pp. 96-99

Author(s):

Tatyana Stepanovna Kolmykova ◽

Ekaterina Vladimirovna Klokova ◽

Elvera Shagidulovna Sharkaeva

Keyword(s):

Enzyme Activity ◽

Antioxidant Enzymes ◽

Environmental Factors ◽

Catalase Activity ◽

Low Temperatures ◽

High Ability ◽

Tomato Plants ◽

Resistance To Stress ◽

Primary Antioxidant ◽

A Minor

Activity of the antioxidant system is one of the mechanisms for the protection of plants against adverse environmental factors. Catalase - a primary antioxidant enzymes. Her change may serve as an indicator of plant resistance to stress. Studied catalase activity in tomato plants of different varieties under the action of low temperatures and cytokinin 6-BAP preparation. The object of investigation used 24- and 27-day-old tomato plant varieties Podarochnyi, Patrice, Volgogradskyi. Found that under the action of low temperatures, the decrease in positive catalase activity: 10-30% at 10 C and 40-60% at a temperature of 3 C as compared with non-refrigerated plants. Less resistant to hyperthermia were plant varieties Patrice. With increasing length of vegetation at a temperature of 25 C in 27-day-old tomato plants resulted in a minor increase in the activity of the enzyme. After the end of the cooling observed recovery of enzyme activity only at grades Podarochnyi and Patrice. This indicates that the indicated tomato varieties possess a high ability to restore metabolic processes. Using 6-regulator cytokinin BAP increased catalase activity in tomato plants as prolonged or momentary cooling. Especially responsive to the drug were plant varieties Patrice and Volgogradskyi. And 6-BAP helped repair catalase activity in 27-day-old plants in the aftereffect of cold stress. Were more sensitive plant varieties Podarochnyi.

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The Effect of Nitrogen Fertilization and Fusarium culmorum Inoculation on the Biomarkers of Oxidative Stress in Wheat Flag Leaves

Poljoprivreda ◽

10.18047/poljo.27.2.2 ◽

2021 ◽

Vol 27 (2) ◽

pp. 15-24

Author(s):

Magdalena Matić ◽

◽

Rosemary Vuković ◽

Karolina Vrandečić ◽

Ivna Štolfa Čamagajevac ◽

...

Keyword(s):

Oxidative Stress ◽

Hydrogen Peroxide ◽

Lipid Peroxidation ◽

Antioxidant Enzymes ◽

Biotic Stress ◽

Flag Leaf ◽

Fusarium Culmorum ◽

Antioxidant Response ◽

The Impact ◽

Biomarkers Of Oxidative Stress

During cultivation, wheat is exposed to several abiotic and/or biotic stress conditions that may adversely impact the wheat yield and quality. The impact of abiotic stress caused by nitrogen deficiency and biotic stress caused by phytopathogenic fungus Fusarium culmorum on biomarkers of oxidative stress in the flag leaf of nine winter wheat varieties (Ficko, U-1, Galloper, BC Mandica, BC Opsesija, Ingenio, Isengrain, Felix, and Bezostaya-1) was analyzed in this study. Hydrogen peroxide concentration and lipid peroxidation level were measured as indicators of oxidative stress, while the antioxidant response was determined by measuring the concentration of phenolic compounds and activities of antioxidant enzymes. Wheat variety and nitrogen treatment had a significant effect on all examined biomarkers of oxidative stress in the flag leaf, while the impact of Fusarium treatment was less pronounced. The most significant impact on the measured stress biomarkers had a low nitrogen level, which mainly increased hydrogen peroxide concentration and lipid peroxidation level and decreased activities of antioxidant enzymes in most varieties. The obtained results were discussed and compared with the previous study in which biochemical analyzes were performed on the wheat spike. There was no significant strong correlation between flag leaf and spike response in the measured parameters, which, in addition to the variety-specific response, also indicates a tissue-specific antioxidant response.

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Experience of measuring glutathione peroxidase activity in surgically induced endometrial-like lesions in rats

Journal of obstetrics and women s diseases ◽

10.17816/jowd52877 ◽

2021 ◽

Vol 70 (2) ◽

pp. 55-61

Author(s):

Aleksey V. Razygraev ◽

Elena V. Baziyan ◽

Lyudmila S. Polyanskikh ◽

Mariya A. Petrosyan

Keyword(s):

Hydrogen Peroxide ◽

Antioxidant Enzymes ◽

Glutathione Peroxidase ◽

Rat Model ◽

Peroxidase Activity ◽

Specific Activity ◽

Reduced Glutathione ◽

Glutathione Peroxidase Activity ◽

Nitrobenzoic Acid ◽

Surgically Induced

BACKGROUND: Endometriosis is known to be linked with altered activities of antioxidant enzymes and with their gene polymorphisms. Progestins are known to induce glutathione peroxidase activity in the endometrium and promote reduction of endometrial lesions. It could be useful to estimate the correlation between the activity of glutathione peroxidase within endometrial lesions and their degree of reduction. AIM: The present study was aimed at estimating glutathione peroxidase activity in surgically induced endometrial-like lesions of different degree of reduction in rat model of endometriosis. MATERIALS AND METHODS: The method for determining glutathione peroxidase activity using hydrogen peroxide as a substrate and 5,5-dithiobis(2-nitrobenzoic acid) for estimation of residual reduced glutathione was applied for quantitative analysis of the enzyme activity in endometriotic foci, surgically induced in female Wistar rats. An assay of glutathione peroxidase activity in tissue homogenates was performed at 37C in a reaction medium containing Tris-HCl buffer supplemented with tetrasodium ethylenediaminetetraacetate and sodium azide (pH 8.5) in the presence of 0.55 mM reduced glutathione and 0.192 mM hydrogen peroxide. Before adding trichloroacetic acid, 40-second incubation was used. The correlation between the specific activity of the enzyme and protein amount in endometriotic foci was estimated. RESULTS: In a rat model of endometriosis, there was a high, well-determined glutathione peroxidase activity in endometriotic foci. For the same endometriotic tissue sample, the enzymatic activity was proportional to the amount of protein in the reaction mixture. The range of specific glutathione peroxidase activity was 2.436.45 micromoles of consumed glutathione per minute per milligram of protein (n = 7). In most reduced endometriotic foci (with the minimum amount of endometriotic tissue), the highest specific activity of glutathione peroxidase was found (the Spearmans rho of 0.93 with p = 0.0067). CONCLUSIONS: The method for determining glutathione peroxidase activity using hydrogen peroxide and 5,5-dithiobis(2-nitrobenzoic acid) is convenient for working with the endometriotic tissue in a rat model of endometriosis. We can accept, with p 0.01, that weight of endometriotic foci is negatively linked with specific glutathione peroxidase activity within their tissue. The results are analogous to the previously obtained data on catalase activity and suggest the involvement of both antioxidant enzymes in reduction of endometrial lesions.

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