Antioxidant activities and free amino acid content of rice responded to xanthomonas oryzae pv oryzae infection under phosphate starvation condition

To Thi Mai Huong, Mai Thi Phuong Nga
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Abstract

Rice productivity strongly affects food security worldwide, especially in Asia, where rice is served as a staple food. However, rice productivity was threatened by numbers of environmental stresses, including Xanthomonas oryzae pv oryzae (Xoo) disease. Xoo is causing significant losses to rice production around the world. Furthermore, thanks to the significant function of phosphate (Pi) in nucleic acid and cell membrane structure, energy-transporting molecules, photosynthesis and respiration, a sufficient supply of Pi for rice plants is essential. Our previous studies had demonstrated the effect of low Pi in increasing Xoo tolerance in rice. In the present study, two-biochemical processes responsible for this tolerance were investigated by analyzing antioxidant enzyme activities and free amino acid profile produced by Xoo infected rice plants under Pi starvation and full Pi conditions. Two selected rice cultivars, G22 and G299, were used as plant materials. After two weeks of 6-week-old plants infected with Xoo, peroxidase and catalase activities in the plants under the low Pi condition were significant increased. Amino acids belonging to the glutamic, serine and pyruvate families, especially serine and proline accumulated the higher levels in plants under low Pi conditions compared to full Pi. In our two studied rice cultivars, the improvement in both antioxidant enzymes and free amino acid was found cultivar-dependence, the sensitive to low Pi G299 cultivar responsed stronger than the tolerant to low Pi G22 cultivar. The results from this study provide more detail about the possible mechanism how rice plants tolerant to Xoo under the Pi starvation condition and can suggest a strategy for green agriculture in dealing with Xoo infection by considering the interaction between Pi starvation and the Xoo response.
磷饥饿条件下水稻抗氧化活性和游离氨基酸含量对水稻黄病菌侵染的响应
水稻产量对全世界的粮食安全影响很大,特别是在亚洲,水稻是主食。然而,水稻产量受到包括水稻黄单胞菌病(Xoo)在内的多种环境胁迫的威胁。Xoo给世界各地的水稻生产造成了重大损失。此外,由于磷酸(Pi)在核酸和细胞膜结构、能量转运分子、光合作用和呼吸等方面的重要功能,因此充足的Pi供应对水稻至关重要。我们以前的研究已经证明了低Pi对提高水稻耐Xoo的作用。本研究通过分析Xoo侵染水稻植株在缺磷和满磷条件下产生的抗氧化酶活性和游离氨基酸谱,研究了导致这种抗性的两个生化过程。以G22和G299两个选定的水稻品种为材料。6周龄植株侵染Xoo 2周后,低Pi条件下植株过氧化物酶和过氧化氢酶活性显著升高。谷氨酸、丝氨酸和丙酮酸家族氨基酸,尤其是丝氨酸和脯氨酸在低Pi条件下的积累水平高于满Pi条件。2个水稻品种抗氧化酶和游离氨基酸的改善均存在品种依赖性,对低Pi敏感的品种G299的反应强于耐低Pi的品种G22。本研究结果为水稻在Pi饥饿条件下耐受Xoo的可能机制提供了更多细节,并可以通过考虑Pi饥饿与Xoo响应之间的相互作用,为绿色农业应对Xoo感染提供策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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