胺酯通过促进铵和钾的吸收来改善水稻的生长和抗性

Dandan Li , Zhonghua Sun , Jin Chu , Hao Zheng , Weichang Xu , Cui Wan , Xianfu Zheng , Yuanhu Xuan
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引用次数: 0

摘要

化肥在提高作物产量方面发挥着至关重要的作用;然而,过量施肥会导致环境污染,增加温室气体排放,加剧全球变暖。因此,提高肥料利用率对作物生产和生态安全具有重要意义。辛酸(OA)是一种常见于动植物体内的直链饱和脂肪酸,具有促进植物生长的作用。在本研究中,我们以 OA 为前体合成了胺酯 (AE)。与 OA 相比,AE 具有更强的生长促进作用。为了进一步探索 AE 诱导的生长促进机制,我们分析了大分子元素转运体突变体对 AE 的反应。遗传学和生理学研究表明,钾通道 AKT1 和铵转运体 1(AMT1)的突变体抑制了 AE 诱导的水稻秧苗生长促进作用,而硝酸盐转运体 1.1B (NRT1.1B)和磷酸盐转运体 8(PT8)的突变体则没有明显抑制 AE 诱导的生长。此外,酵母拯救试验表明,AE 能显著促进铵离子和钾离子的吸收。谷氨酰胺合成酶 1(gs1;1)突变体表现出与 AMT1 RNAi 类似的反应,抑制了 AE 诱导的生长促进作用。此外,施用 AE 会导致叶绿素积累增加,并分别通过钾和铵途径增强对稻瘟病和鞘枯病(ShB)的抗性。AE 还能通过这些途径提高对盐碱胁迫的耐受性。总之,AE 是一种新型肥料添加剂,它能促进水稻生长,并通过激活铵和钾的吸收提高对生物和非生物胁迫的耐受性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Amine ester improves rice growth and resistance by promoting ammonium and potassium uptake

Amine ester improves rice growth and resistance by promoting ammonium and potassium uptake
Fertilizers play a crucial role in improving crop yields; however, excessive fertilizer application leads to environmental pollution, increases greenhouse gas emissions, and contributes to global warming. Therefore, improving fertilizer efficiency is of great significance for crop production and ecological security. Octanoic acid (OA), a type of straight-chain saturated fatty acid commonly found in plants and animals, is known to promote plant growth. In this study, we synthesized amine esters (AE) using OA as the precursor. AE demonstrated a greater growth-promoting effect than OA. To further explore the mechanism underlying AE-induced growth promotion, the responses of macro-element transporter mutants to AE were analyzed. Genetic and physiological studies indicated that mutants of potassium channel AKT1 and ammonium transporter 1 (AMT1) inhibited AE-induced growth promotion in rice seedlings, whereas mutants of nitrate transporter 1.1B (NRT1.1B) and phosphate transporter 8 (PT8) did not significantly inhibit AE-induced growth. Additionally, yeast rescue assays revealed that AE significantly enhanced the absorption of ammonium and potassium ions. Glutamine synthetase 1 (gs1;1) mutants exhibited a response similar to that of AMT1 RNAi, which inhibited AE-induced growth promotion. Furthermore, the administration of AE led to increased chlorophyll accumulation and enhanced resistance to rice blast and sheath blight (ShB) via the potassium and ammonium pathways, respectively. AE also improved tolerance to saline and saline-alkaline stresses through these pathways. In conclusion, AE represents a novel fertilizer additive that promotes rice growth and enhances tolerance to biotic and abiotic stresses by activating ammonium and potassium uptake.
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