揭开恢复力的面纱:腹腔流体细菌对植物新陈代谢和非生物胁迫耐受性的影响。

Plant signaling & behavior Pub Date : 2024-12-31 Epub Date: 2024-06-04 DOI:10.1080/15592324.2024.2363126
Lamia Yakkou, Sofia Houida, Aicha El Baaboua, Serdar Bilen, Maryam Chelkha, Leyla Okyay Kaya, Abderrahim Aasfar, Fuad Ameen, Sartaj Ahmad Bhat, Mohammed Raouane, Souad Amghar, Abdellatif El Harti
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引用次数: 0

摘要

人们发现,蚯蚓的体腔液(CF)具有促进植物发育的特性。特别是,蚯蚓腔液相关细菌(CFB)是影响植物反应的主要因素。为了研究这一点,我们在一个包含植物的中观生态系统中使用了从蚯蚓腹腔液中分离出来的细菌,这些细菌是根据不同的植物生长促进特性筛选出来的。该实验旨在评估细菌对非生物胁迫环境(碱性土壤、氮(N)、磷(P)和钾(K)缺乏)下植物新陈代谢的影响,并比较不同处理下植物的脂质特征。在代谢组分析方法中,我们使用了气相色谱-质谱脂质体分析法。通过观察代谢组图谱,我们发现植物对细菌生物刺激剂的反应涉及一些分子途径。属于迷迭香盘菌、铜绿假单胞菌、副黏液芽孢杆菌和苏云金芽孢杆菌的细菌分离物导致合成属于不同化学类别的几种代谢物的数量显著增加。与预测相反,非生物胁迫并没有导致经 CFB 处理的植物的脂质成分和浓度下降,这证明了保护机制的刚性。基于皮尔逊法的统计分析显示,植物生长参数(气生部分长度、叶片表面和生物量)与脂肪酸、羧酸、苯衍生物和烷烃的一些代谢物之间存在显著的正相关。此外,在细菌处理过程中,所有处理的标准代谢成分浓度都远远高于对照处理,这表明细菌刺激了这些代谢成分的过度表达。根据上述结果,我们可以认为,用 CFB 处理的植物表现出了对非生物胁迫防御机制的适应性,这可能是由于脂质生物合成途径中的基因上调所致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unveiling resilience: coelomic fluid bacteria's impact on plant metabolism and abiotic stress tolerance.

Earthworms' coelomic fluid (CF) has been discovered to possess properties that promote plant development. In particular, the earthworm's coelomic fluid-associated bacteria (CFB) are the primary factor influencing the plants' response. To investigate this, we used bacteria isolated from the CF and selected based on different plant growth-promoting traits, in a mesocosm ecosystem that includes plants. This experiment aimed to assess their impact on the metabolism of plants growing under abiotic stress environments (alkaline soil and nitrogen (N), phosphate (P), and potassium (K) deficit) and compare the lipid profiles of plants under the various treatments. We used seven different bacterial species isolated from the CF of Aporrectodea molleri and as a plant model Zea mays L. For the metabolomic analysis method, we used gas chromatography-mass spectrometry lipidomic. After observing the metabolomic profiles, we found that a few molecular pathways are involved in how plants react to bacterial biostimulants. The bacterial isolates belonging to Pantoea vagans, Pseudomonas aeruginosa, Bacillus paramycoides, and Bacillus thuringiensis have led to a significant increase in synthesizing several metabolites belonging to various chemical categories. Contrary to predictions, abiotic stress did not cause a drop in the composition and concentration of lipids in plants treated with the CFB, demonstrating the rigidity of the protective mechanisms. The statistical analysis based on the Pearson method revealed a positive significant correlation between plant growth parameters (length of the aerial part, surface of the leaves, and biomass) and some metabolites belonging to fatty acids, carboxylic acids, benzene derivatives, and alkanes. Moreover, the standard metabolic components of all treatments in much higher concentrations during bacterial treatments than the control treatment suggests that the bacteria have stimulated the overexpression of these metabolic components. According to these results, we could assume that plants treated with CFB exhibit an adaptability of abiotic stress defense mechanisms, which may be attributed to the upregulation of genes involved in lipid biosynthesis pathways.

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