Comparative translational reprogramming of Glycine max during mechanical wounding.

IF 3.4 3区生物学 Q1 PLANT SCIENCES

Physiology and Molecular Biology of Plants Pub Date : 2025-02-01 Epub Date: 2025-02-27 DOI:10.1007/s12298-025-01562-w

Manisha Yadav, Megha Kumari, Indrakant Kumar Singh, Archana Singh

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引用次数: 0

Abstract

Glycine max (soybean) is a highly protein-rich legume that also contains oils and vitamins. Unfortunately, soybean faces many biotic and abiotic stresses including heat, drought, pests, wounds, infections, and salinity, which limits the crop productivity. Among these, mechanical wounding (MW) causes significant harm to plants, creates a passage for invading pathogens, and disrupts plant metabolism. Thus, exploring soybean responses at the molecular and biochemical levels during mechanical damage is essential. Additionally, MW resembles insect bites, which offers important insights into the immune systems identical to MW and pest attacks. In this investigation, we executed a comparative proteome evaluation of the PUSA9712 soybean variety following MW. Based on specifications of log2FC ≥ 1 and p-value ≤ 0.05, the study disclosed 786 differentially abundant proteins (DAPs) upon MW, among which 294 were elevated and 492 were down-regulated. The function annotation and pathway analysis of DAPs displayed their role in ROS signaling, flavonoid biosynthesis, ABA synthesis, JA-synthesis, defense against pathogens, fatty acid synthesis, brassinosteroid (BR) signaling, carbohydrate metabolism, proteolysis, calcium signaling, and protein kinase pathway. Lipoxygenase, V-type ATPases, Annexin, NsLTP, and ATP-dependent Clp protease proteolytic subunit DAPs can be promising candidates to strengthen soybean crop's resilience to mechanical damage and pest/pathogen attacks and need further functional characterisation.

Supplementary information: The online version contains supplementary material available at 10.1007/s12298-025-01562-w.

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机械损伤中甘氨酸max的比较翻译重编程。

甘氨酸（大豆）是一种富含蛋白质的豆类，还含有油脂和维生素。不幸的是，大豆面临着许多生物和非生物胁迫，包括热、干旱、害虫、伤口、感染和盐度，这些都限制了作物的产量。其中，机械伤害（MW）对植物造成较大的伤害，为病原体的入侵提供通道，并破坏植物的代谢。因此，探索大豆在机械损伤过程中分子和生化水平上的反应是必要的。此外，MW类似于昆虫叮咬，这为了解与MW和害虫攻击相同的免疫系统提供了重要的见解。在这项研究中，我们对转基因大豆品种PUSA9712进行了比较蛋白质组学评价。以log2FC≥1和p值≤0.05为指标，研究发现MW时存在786个差异丰富蛋白（differentially abundant proteins, DAPs），其中294个表达升高，492个表达下调。DAPs的功能注释和通路分析显示其在ROS信号、类黄酮生物合成、ABA合成、ja合成、病原体防御、脂肪酸合成、油菜素内酯（BR）信号、碳水化合物代谢、蛋白质水解、钙信号和蛋白激酶信号通路中发挥作用。脂氧合酶、v型atp酶、膜联蛋白、NsLTP和atp依赖性Clp蛋白酶的蛋白水解亚基DAPs是增强大豆作物对机械损伤和病虫害侵袭的抗逆性的有希望的候选物，需要进一步的功能表征。补充信息：在线版本包含补充资料，提供地址为10.1007/s12298-025-01562-w。

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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来源期刊

Physiology and Molecular Biology of Plants PLANT SCIENCES-

CiteScore

7.10

自引率

0.00%

发文量

126

期刊介绍： Founded in 1995, Physiology and Molecular Biology of Plants (PMBP) is a peer reviewed monthly journal co-published by Springer Nature. It contains research and review articles, short communications, commentaries, book reviews etc., in all areas of functional plant biology including, but not limited to plant physiology, biochemistry, molecular genetics, molecular pathology, biophysics, cell and molecular biology, genetics, genomics and bioinformatics. Its integrated and interdisciplinary approach reflects the global growth trajectories in functional plant biology, attracting authors/editors/reviewers from over 98 countries.