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盐和干旱胁迫一直是限制农业生产的重要因素,而SA是应激反应涉及的重要酚类,但是SA对稻米的双重盐和大米中的干旱胁迫的功能尚不清楚。在这项研究中,通过检测生理和生化指数以及盐和干旱耐受性基因的表达,研究了对稻米对双盐和干旱胁迫的外源SA触发的影响和机制。结果表明,SA的应用可以显着增加盐和干旱胁迫下水稻幼苗的抗氧化酶活性,从而减少米H 2 O 2和MDA的含量并维持水稻幼苗的生长。Moreover, the expression of genes involved in the response of abiotic stress, such as OsDREB2A, OsSAPK8, OsSAPK10 and OsMYB2 , were up-regulated under salt and drought treatment, and SA application could further enhance the expression of those genes like OsDREB2A and OsSAPK8 , suggesting that SA might regulate antioxidant enzyme activity via inducing the expression of salt and drought tolerance基因并增强大米的盐和干旱耐受性。结果将丰富SA功能的知识,并提供了研究大米盐和干旱性中SA机制的参考,并使用改善的盐和耐干旱的盐分繁殖新的水稻种质。
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