5-oxoproline 的代谢调节增强了多年生黑麦草的耐热性。

Shuhan Lei, Stephanie Rossi, Zhimin Yang, Jingjin Yu, Bingru Huang
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引用次数: 0

摘要

焦谷氨酸[(5-oxoproline (5-oxp))]是一种非蛋白氨基酸,可转化为谷氨酸来调节植物体内的氨基酸代谢。它在植物适应非生物胁迫(包括热胁迫)中的作用尚不十分清楚。本研究的目的是确定外源施用 5-oxp 是否能提高多年生冷季型禾本科植物的耐热性,并确定可激活或响应 5-oxp 以提高耐热性的主要代谢途径。在多年生黑麦草(Lolium perenne L.)植株暴露于热胁迫(35/33 ℃,昼夜温差)或环境温度(25/22 ℃,昼夜温差,非胁迫对照)之前和期间,在可控环境生长室中叶面喷施 5-oxp 或水(未处理对照)。施用 5-oxp 提高了多年生黑麦草的耐热性,具体表现为叶绿素含量、光化学效率、细胞膜稳定性和抗氧化酶活性分别提高了 31.2%、25.7%、37.2% 和 57.1-258.3%,过氧化氢产生量减少了 36.8%。代谢谱分析发现,5-oxp 上调的代谢物涉及光合作用中的碳同化、糖酵解和呼吸作用中的三羧酸循环、蛋白质氨基酸代谢、谷胱甘肽代谢以及 DNA 或 RNA 合成和 ATP 生成的核苷酸代谢等代谢途径。这些代谢过程的上调或激活可能有助于 5-oxp 提高多年生黑麦草的耐热性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metabolic regulation of 5-oxoproline for enhanced heat tolerance in perennial ryegrass.

Pyroglutamic acid [(5-oxoproline (5-oxp)], a non-protein amino acid, can be converted to glutamate to regulate amino acid metabolism in plants. Its roles in plant adaptation to abiotic stresses, including heat stress, are not well understood. The objectives of this study were to determine whether exogenous application of 5-oxp could promote heat tolerance in cool-season perennial grass species and identify the major metabolic pathways that could be activated or responsive to 5-oxp for enhancing heat tolerance. Perennial ryegrass (Lolium perenne L.) plants were foliar-sprayed with 5-oxp or water (untreated control) prior to and during the exposure to heat stress (35/33 ℃, day/night temperature) or ambient temperature (25/22 ℃, day/night temperature, non-stress control) in controlled-environment growth chambers. Application of 5-oxp improved the heat tolerance of perennial ryegrass, as manifested by the chlorophyll content, photochemical efficiency, cell membrane stability, and antioxidant enzyme activities increasing by 31.2%, 25.7%, 37.2%, and 57.1-258.3%, as well as the reduction in hydrogen peroxide production by 36.8%. Metabolic profiling identified metabolites up-regulated by 5-oxp that are involved in the metabolic pathways of carbon assimilation in photosynthesis, glycolysis and the tricarboxylic acid cycle of respiration, proteinogenic amino acid metabolism, glutathione metabolism, and nucleotide metabolism for DNA or RNA synthesis and ATP generation. The up-regulation or activation of those metabolic processes could contribute to 5-oxp-mediated enhancement in the heat tolerance of perennial ryegrass.

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