Leaves peroxidase and esterase isozymes in sunflower crops exposed to saline environment

Q3 Chemistry

European Chemical Bulletin Pub Date : 2020-12-05 DOI:10.17628/ecb.2020.9.425-429

Chadia Ouazzani, A. Moustaghfir, A. Er-Ramly

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Abstract

Water deficit stress is one of the main problems determining the yield of many crop plants. The study of the effects of salinity on plant growth and development and the search for biochemical stress markers are of great importance in the selection of resistant species. Accumulation and antioxidant activities in response to salinity at different sunflower varieties constitute markers for genetic selection and improvement of plants in the face of tolerance to salinity. Electrophoretic analysis of zymograms of different sunflower varieties grown in a saline environment for 40 days revealed zymograms of peroxidases and esterases specific to varieties tolerant to the saline environment. Peroxidases activity extracted from leaves is augmented in relation to their involvement in the physiological process related to salinity tolerance. In susceptible varieties, peroxidases activity is decreased compared to normal conditions. Variability of activity and polymorphism of isozyme peroxidases and esterases in response to salinity at different sunflower varieties constitute markers for genetic selection and plant improvement in the face of salinity tolerance.

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盐渍环境下向日葵叶片过氧化物酶和酯酶同工酶的研究

水分亏缺胁迫是决定许多作物产量的主要问题之一。研究盐度对植物生长发育的影响，寻找生化胁迫标记，对抗性品种的选择具有重要意义。不同向日葵品种对盐胁迫的积累和抗氧化活性是植物耐盐性遗传选择和改良的标志。对不同向日葵品种在盐渍环境中生长40 d的酶谱进行电泳分析，发现耐盐渍向日葵品种的过氧化物酶和酯酶谱具有特异性。从叶片中提取的过氧化物酶活性增强与其参与与耐盐性相关的生理过程有关。在敏感品种中，过氧化物酶活性比正常条件下降低。不同向日葵品种同工酶过氧化物酶和酯酶对盐胁迫的活性变异和多态性为耐盐遗传选择和植物改良提供了依据。

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来源期刊

European Chemical Bulletin Chemistry-Chemistry (all)

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审稿时长

6 weeks