The Tolerance of Saline Conditions of Rice Seedlings in the Treatment of Oligochitosan

Q3 Agricultural and Biological Sciences

Indian Journal Of Agricultural Research Pub Date : 2023-11-29 DOI:10.18805/ijare.af-814

N.T.P. Thanh, L.T.T. Tien

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引用次数: 0

Abstract

Background: Rice is one of the most important crops and is sensitive to salinity stress. Salt stress is a major abiotic stress that causes inhibition in plant growth or even plant death. Looking for a solution to enhance the salt tolerance of rice is very necessary. Methods: Rice sprouts with 2-3 mm of radicles were treated in four treatments: distilled water, 0.6% NaCl, oligochitosan 5994 Da (75 ppm) and 0.6% NaCl supplemented with 75 ppm of oligochitosan 5994 Da. The physiological and biochemical parameters and gene expression of rice seedlings were evaluated after seven days of treatment. Result: In the treatment of 0.6% NaCl, the development of rice seedlings was inhibited, but the salt-resistant systems were activated. The addition of oligochitosan maintained the growth of rice seedlings through the improvement of morphology, physiological parameters and the concentration of total sugar, proline and total protein. Oligochitosan raised the expression of genes related to proline biosynthesis (P5CS and P5CR) or genes related to antioxidant enzymes in salinity stress (cAPX, tAPX and sAPX).

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水稻幼苗在寡糖处理下对盐碱条件的耐受性

背景：水稻是最重要的农作物之一，对盐胁迫非常敏感。盐胁迫是一种主要的非生物胁迫，会抑制植物生长，甚至导致植物死亡。寻找提高水稻耐盐性的解决方案非常必要。方法：将带有 2-3 毫米胚根的水稻幼芽分为四种处理：蒸馏水、0.6% NaCl、低聚壳聚糖 5994 Da（75 ppm）和 0.6% NaCl 加 75 ppm 低聚壳聚糖 5994 Da。处理七天后，对水稻秧苗的生理生化指标和基因表达进行了评估。结果在 0.6% NaCl 处理中，水稻秧苗的生长发育受到抑制，但抗盐系统被激活。添加低聚壳聚糖后，水稻秧苗的形态、生理指标以及总糖、脯氨酸和总蛋白的浓度均得到改善，从而保持了生长。低聚壳聚糖提高了脯氨酸生物合成相关基因（P5CS 和 P5CR）或盐胁迫抗氧化酶相关基因（cAPX、tAPX 和 sAPX）的表达。

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来源期刊

Indian Journal Of Agricultural Research Agricultural and Biological Sciences-Soil Science

CiteScore

1.00

自引率

0.00%

发文量

143