Soybean and maize differentially metabolize deuterated ferulic and sinapic acids before polymerizing them into the root cell wall

IF 5.4 Q1 PLANT SCIENCES
Aline Marengoni Almeida , Diany Lucy Silveira dos Reis , Eduardo Jorge Pilau , Rogério Barbosa de Lima , Rodrigo Polimeni Constantin , Rogério Marchiosi , Osvaldo Ferrarese-Filho , Wanderley Dantas dos Santos
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Abstract

Hydroxycinnamates induce lignification in young plants, leading to the overproduction of lignin as a defense mechanism. Phenylpropanoids-containing oligosaccharides are thought to be a signal of pathogen attack on the cell wall polysaccharides. However, it is unclear if hydroxycinnamates induce lignification by acting solely as stress elicitors or feeding the phenylpropanoid pathway as lignin precursors. To examine this hypothesis, we added 1 mM deuterated ferulic acid (FA) or sinapic acid (SA) to the nutrient solution in which we cultivated soybean or maize plantlets. After 24 h, we assessed the biometric parameters and the contents of ester-linked FA and SA, total lignin, monolignol ratio, and heavy monolignols. FA treatment increased the content of ester-linked FA, syringyl, and guaiacyl monomers measured by nitrobenzene oxidation, lignin content, and reduced root growth in both soybean and maize plants. p-Coumaric acid content ester-linked to the cell wall increased in soybean but decreased in maize after treatment with FA. Treatment with SA also induced lignification in soybean but not in maize. SA increased S-lignin and sinapoyl esters content in the cell wall polymers in both soybean and maize. Residues of deuterated hydroxycinnamates were detected in the lignin of both plants in both treatments. The assay demonstrated that exogenously applied SA and FA were metabolized through the phenylpropanoid pathway. Furthermore, they were, at least partially, exported to the apoplast, where they were ester-linked to cell wall polymers. This suggests hydroxycinnamic acids are metabolized differently by plants with different types of cell walls.

大豆和玉米在将氘代阿魏酸和山奈酸聚合到根细胞壁之前对其进行不同的代谢
羟基肉桂酸盐会诱导幼苗木质化,从而导致木质素的过度生成,这是一种防御机制。含苯基丙酸的低聚糖被认为是病原体攻击细胞壁多糖的信号。然而,目前还不清楚羟基肉桂酸盐是仅作为胁迫诱导剂诱导木质素化,还是作为木质素前体供给苯丙酮途径。为了验证这一假设,我们在培养大豆或玉米小植株的营养液中加入了 1 mM 的氘代阿魏酸(FA)或山奈酸(SA)。24 小时后,我们评估了生物计量学参数、酯联FA和SA的含量、木质素总量、单木质素比率和重单木质素。经 FA 处理后,大豆和玉米植株中通过硝基苯氧化法测定的酯联 FA、丁香酰基和愈创木酰基单体的含量和木质素含量均有所增加,根系生长速度也有所降低。用 SA 处理也会诱导大豆的木质化,但不会诱导玉米的木质化。SA 增加了大豆和玉米细胞壁聚合物中 S-木质素和 sinapoyl 酯的含量。在两种处理中,两种植物的木质素中都检测到了氘代羟基肉桂酸盐的残留物。检测结果表明,外源施用的 SA 和 FA 是通过苯丙醇途径代谢的。此外,它们至少有一部分被输出到细胞外质,在那里与细胞壁聚合物发生酯联反应。这表明不同类型细胞壁的植物对羟基肉桂酸的代谢方式不同。
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来源期刊
Current Plant Biology
Current Plant Biology Agricultural and Biological Sciences-Plant Science
CiteScore
10.90
自引率
1.90%
发文量
32
审稿时长
50 days
期刊介绍: Current Plant Biology aims to acknowledge and encourage interdisciplinary research in fundamental plant sciences with scope to address crop improvement, biodiversity, nutrition and human health. It publishes review articles, original research papers, method papers and short articles in plant research fields, such as systems biology, cell biology, genetics, epigenetics, mathematical modeling, signal transduction, plant-microbe interactions, synthetic biology, developmental biology, biochemistry, molecular biology, physiology, biotechnologies, bioinformatics and plant genomic resources.
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