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Arbuscular mycorrhiza fungus alleviates arsenic mediated disturbances in tricarboxylic acid cycle and nitrogen metabolism in Triticum aestivum L.

三羧酸 谷氨酸合酶 不规则嗜根菌 柠檬酸循环 氮气循环 硝酸还原酶 异柠檬酸脱氢酶 谷氨酰胺合成酶 谷氨酸脱氢酶 丛枝菌根 氮同化 菌根 新陈代谢 生物 谷氨酰胺 氮气 苹果酸脱氢酶 脱氢酶 球囊菌门 化学 共生 生物化学 氨基酸 细菌 谷氨酸受体 有机化学 受体 遗传学 丛枝菌根
作者
Samta Gupta,Sarda Devi Thokchom,Rupam Kapoor
出处
期刊:Plant Physiology and Biochemistry [Elsevier BV]
卷期号:197: 107631-107631 被引量:13
标识
DOI:10.1016/j.plaphy.2023.03.008
摘要

Utilization of arbuscular mycorrhizal (AM) fungi (AMF) as a sustainable strategy in redeeming arsenic (As) toxicity in plants is a promising approach. Low As accumulation, restoration of physiological processes, and As tolerance by AMF have been documented in crop plants. However, to comprehend AM-mediated As tolerance in plants, understanding the biochemical responses of host to the symbiont is crucial. The study evaluated the effect of an AM fungus, Rhizophagus intraradices on tricarboxylic acid cycle (TCA) and nitrogen metabolism of Triticum aestivum under three As concentrations (0, 25, and 50 mg As kg-1 soil). Results showed that TCA cycle and nitrogen metabolism were severely impaired by As that resulted into a higher C/N ratio. However, colonization by R. intraradices attenuated As mediated alterations in TCA cycle by augmenting the activity of pyruvate dehydrogenase that provided sufficient substrate for the TCA cycle. Furthermore, mycorrhizal (M) plants reinstated the activities of isocitrate dehydrogenase, succinate dehydrogenase, fumarase, and malate dehydrogenase even under high As level. Although citrate synthase and oxoglutarate dehydrogenase activities declined upon As exposure in M-plants, these were nevertheless higher than their non-mycorrhizal (NM) counterparts, ensuring higher levels of citric acid and succinic acid in M-plants. AM colonization also moderated the As-mediated disturbances in nitrogen assimilation by augmenting the activity of nitrate reductase, nitrite reductase, glutamine synthase, and glutamine-2-oxoglutarate amino transferase. Overall findings of the study point out that colonization by R. intraradices favourably regulated the TCA cycle and nitrogen metabolism and confronted As-mediated alterations in C/N ratio.

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