创伤后野生型以及具有被破坏的和基因的OPDA缺陷突变体的比较蛋白质组学分析。

Comparative Proteomic Analysis of Wild-Type and an OPDA-Deficient Mutant with Disrupted and Genes after Wounding.

作者信息

Luo Weifeng, Komatsu Setsuko, Abe Tatsuya, Matsuura Hideyuki, Takahashi Kosaku

机构信息

Division of Fundamental Agroscience Research, Research Faculty of Agriculture, Hokkaido University, Kita 9, Nishi 9, Kita-ku, Sapporo 060-8589, Japan.

Department of Environmental and Food Sciences, Faculty of Environmental and Information Sciences, Fukui University of Technology, 3-6-1 Gakuen, Fukui 910-8505, Japan.

出版信息

Int J Mol Sci. 2020 Feb 19;21(4):1417. doi: 10.3390/ijms21041417.

DOI:10.3390/ijms21041417

PMID:32093080

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7073133/

Abstract

Wounding is a serious environmental stress in plants. Oxylipins such as jasmonic acid play an important role in defense against wounding. Mechanisms to adapt to wounding have been investigated in vascular plants; however, those mechanisms in nonvascular plants remain elusive. To examine the response to wounding in , a model moss, a proteomic analysis of wounded was conducted. Proteomic analysis showed that wounding increased the abundance of proteins related to protein synthesis, amino acid metabolism, protein folding, photosystem, glycolysis, and energy synthesis. 12-Oxo-phytodienoic acid (OPDA) was induced by wounding and inhibited growth. Therefore, OPDA is considered a signaling molecule in this plant. Proteomic analysis of a mutant in which the and genes, which are involved in OPDA biosynthesis, are disrupted showed accumulation of proteins involved in protein synthesis in response to wounding in a similar way to the wild-type plant. In contrast, the fold-changes of the proteins in the wild-type plant were significantly different from those in the mutant. This study suggests that gene expression enhances photosynthesis and effective energy utilization in response to wounding in

摘要

创伤是植物面临的一种严重环境胁迫。茉莉酸等氧脂类物质在抵御创伤中发挥着重要作用。维管植物中适应创伤的机制已得到研究；然而，非维管植物中的这些机制仍不清楚。为了研究模式苔藓对创伤的反应，对受伤的进行了蛋白质组学分析。蛋白质组学分析表明，创伤增加了与蛋白质合成、氨基酸代谢、蛋白质折叠、光系统、糖酵解和能量合成相关的蛋白质丰度。12-氧代植物二烯酸（OPDA）受创伤诱导并抑制生长。因此，OPDA被认为是这种植物中的一种信号分子。对一个突变体进行蛋白质组学分析，该突变体中参与OPDA生物合成的和基因被破坏，结果显示，响应创伤时，参与蛋白质合成的蛋白质积累情况与野生型植物相似。相比之下，野生型植物中蛋白质的倍数变化与突变体中的显著不同。这项研究表明，基因表达在响应创伤时增强了光合作用和有效的能量利用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e381/7073133/a726d6576503/ijms-21-01417-g001.jpg

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创伤后野生型以及具有被破坏的和基因的OPDA缺陷突变体的比较蛋白质组学分析。

Comparative Proteomic Analysis of Wild-Type and an OPDA-Deficient Mutant with Disrupted and Genes after Wounding.

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