S. Meneguzzo scite author profile

Plants of Boea hygroscopica F. Muell were subjected to dehydration for 25 days until the relative water content was 23%. The rate of water loss was very slow during the first 12 days of dehydration while it dramatically increased during the last 3 days of the treatment. On day 12 of dehydration total glutathione content was reduced to 24% of the control level and was mainly present in the oxidized form. At that time an oxidation of the sulfhydryl groups of soluble proteins was observed. A protection of glutathione against oxidation of the sulfhydryl groups of soluble proteins was established only after 22 days of desiccation, at the same time as glutathione began to accumulate. During the whole desiccation period enzyme activities related to glutathione utilization and regeneration and the activity of NADP+‐dependent glyceraldehyde‐3‐phosphate dehydrogenase (EC 1.2.1.12), which contains essential sulfhydryl groups, were maintained. The results of the present experiment suggest that during dehydration of Boea hygroscopica glutathione has above all, a primary role in the protection of the sulfhydryl groups of the thylakoid proteins, which were maintained in the reduced form during the whole dehydration period.

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NaCl Effects on Water Relations and Accumulation of Mineral Nutrients in Shoots, Roots and Cell Sap of Wheat Seedlings

Meneguzzo

Navari-Izzo

Izzo

2000

Journal of Plant Physiology

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Stromal and thylakoid‐bound ascorbate peroxidases in NaCl‐treated wheat

Meneguzzo¹,

Sgherri²,

Navari-Izzo³

et al. 1998

Physiologia Plantarum

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Salinity is one of the most widespread causes of plant growth inhibition and reduction of agricultural productivity. Activated oxygen species seem to be implicated in the injury mechanism induced by salt. In our work, the effect of NaCl was studied in chloroplasts from seedlings of two cultivars of Triticum durum Desf., differently sensitive to drought and to heavy metals (cv. Ofanto more tolerant than cv. Adamello). The seedlings were grown for 9 days in Hoagland's no. 2 solution, to which increasing concentrations of NaCl (0, 50 and 100 mM) were added. The results indicate an involvement of activated oxygen species in the mechanism of cellular toxicity of NaCl and the capability of the seedlings to induce their antioxidant defences. In chloroplasts of both cultivars, NaCl treatment induced a significant increase in ascorbate, even if cv. Ofanto showed the higher response. Ascorbate peroxidases appear to behave differently in the two cultivars in response to NaCl‐induced oxidative stress of chloroplasts. In seedlings of Adamello treated with 50 mM NaCl, a sudden increase in thylakoid‐bound ascorbate peroxidase (tAPX) activity and a decrease in that of stromal ascorbate peroxidase (sAPX) occurred. Differently, in Ofanto, a slight increase of both sAPX and tAPX was induced by NaCl. In both cultivars, three well‐resolved bands of sAPX were found. In chloroplasts of both cultivars, monodehydroascorbate reductase (MDHAR) and dehydroascorbate reductase (DHAR) behaved similarly, even if in Adamello a greater decrease of DHAR was shown. The experimental evidence suggested a more marked effect of NaCl stress on Adamello as compared with Ofanto.

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Uptake and Translocation of Copper inBrassicaceae

Quartacci

Cosi

Meneguzzo

et al. 2003

Journal of Plant Nutrition

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Ten cvs. of four Brassicaceae species were tested to evaluate their copper (Cu) uptake and translocation. Germination and root length tests indicated that Brassica juncea cv. Aurea and Raphanus sativus cvs. Rimbo and Saxa were the species with the highest germinability and longest roots at Cu concentrations ranging from 25 up to 200 mM. Raphanus sativus cv. Rimbo grown in hydroponic culture at increasing Cu concentrations (from 0.12 up to 40 mM) for 10 days produced a relatively high biomass (17.2 mg plant À1 ) at the highest concentration and had a more efficient Cu translocation (17.8%) in comparison with cvs. Aurea and Saxa. The potential of cv. Rimbo for Cu uptake was then followed for 28 days at 5, 10, and 15 mM Cu. In comparison with the control, after 28 days of growth the 15 mM Cu-treated plants showed a reduction in the tolerance index (À40%) and in the above-ground dry biomass (À19%). On the contrary, an increase in the below-ground dry weight was observed (þ35%). Copper accumulated during the growth period both in the below-and above-ground parts (about 14 and 4 mg plant À1 at 10 and 15 mM Cu, respectively), but the translocation decreased from 50 to 30% in the last week at all the concentrations used. In addition, cv. Rimbo grown in a multiple element [cadmium (Cd), chromium (Cr), Cu, lead (Pb), and zinc (Zn)] naturally-contaminated site accumulated all elements in the above-ground part in a range from 5 to 62 mg plant À1 .

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S. Meneguzzo

Antioxidative Responses of Shoots and Roots of Wheat to Increasing NaCI Concentrations

The role of the glutathione system during dehydration of Boea hygroscopica

NaCl Effects on Water Relations and Accumulation of Mineral Nutrients in Shoots, Roots and Cell Sap of Wheat Seedlings

Stromal and thylakoid‐bound ascorbate peroxidases in NaCl‐treated wheat

Uptake and Translocation of Copper inBrassicaceae

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