L-DOPA induces iron accumulation in roots of Ipomoea aquatica and Arabidopsis thaliana in a pH-dependent manner.

IF 3.4 3区 生物学 Q1 Agricultural and Biological Sciences Botanical Studies Pub Date : 2023-08-25 DOI:10.1186/s40529-023-00396-7
En-Jung Hsieh, Siao-Wei Liao, Ching-Yuan Chang, Chu-Han Tseng, Shan-Li Wang, Louis Grillet
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Abstract

Background: Iron deficiency is the leading cause of anemia worldwide, particularly in countries with predominant plant-based diets. Plants constitute the main source of dietary iron. Increasing their iron concentration could reduce the occurrence of anemia. The water spinach Ipomoea aquatica is consumed as a vegetable throughout Asia and tolerates high iron concentrations making it an attractive candidate for iron biofortification. L-DOPA is an allelopathic molecule secreted by some legumes. L-DOPA can trigger the expression of Fe deficiency-inducible genes, and could potentially be used as a biostimulant to increase Fe concentration.

Results: L-DOPA significantly affected root growth of water spinach, and triggered a massive accumulation of Fe in roots. Both effects were exacerbated when L-DOPA was dissolved in KOH, which is surprising given that L-DOPA is less stable at high pH. To check whether a higher pH could indeed increase the bioactivity of L-DOPA, we used Arabidopsis thaliana, which grows at lower pH than water spinach, and subjected the plants to L-DOPA treatments at pH 5.5 and pH 6.0, which are both within the optimal range for Arabidopsis nutrition. At pH 6.0, the root growth of Arabidopsis was more strongly inhibited than at pH 5.5. We found that at higher pH, L-DOPA oxidizes to form a melanin precipitate.

Conclusions: We concluded that the oxidation of L-DOPA that we observed upon solubilization in KOH, or in nutrient solutions at slightly higher pH produces melanin-related molecules that are more potent than L-DOPA itself to trigger the primary root growth inhibition, Fe uptake and root Fe accumulation in water spinach and Arabidopsis.

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L-DOPA以ph依赖的方式诱导水木和拟南芥根系铁积累。
背景:缺铁是世界范围内贫血的主要原因,特别是在以植物性饮食为主的国家。植物是膳食铁的主要来源。增加它们的铁浓度可以减少贫血的发生。在整个亚洲,水菠菜作为一种蔬菜被食用,它耐高浓度的铁,使其成为铁生物强化的一个有吸引力的候选者。左旋多巴是一些豆科植物分泌的一种化感分子。L-DOPA可以触发铁缺乏诱导基因的表达,并可能作为一种生物刺激剂来增加铁浓度。结果:L-DOPA对菠菜根系生长有显著影响,引起根系铁的大量积累。当L-DOPA溶解在KOH中时,这两种作用都加剧了,这是令人惊讶的,因为L-DOPA在高pH下稳定性较差。为了验证更高的pH是否确实可以提高L-DOPA的生物活性,我们以生长在比水菠菜更低的pH下的拟南芥为研究对象,在pH 5.5和pH 6.0的条件下进行L-DOPA处理,这两个条件都在拟南芥营养的最佳范围内。pH 6.0对拟南芥根系生长的抑制作用强于pH 5.5。我们发现在较高的pH值下,左旋多巴氧化形成黑色素沉淀。结论:我们的结论是,我们观察到的左旋多巴在KOH或略高pH的营养液中溶解时的氧化产生黑色素相关分子,这些分子比左旋多巴本身更有效地触发水菠菜和拟南芥的初生根生长抑制、铁吸收和根铁积累。
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来源期刊
Botanical Studies
Botanical Studies 生物-植物科学
CiteScore
5.50
自引率
2.90%
发文量
32
审稿时长
2.4 months
期刊介绍: Botanical Studies is an open access journal that encompasses all aspects of botany, including but not limited to taxonomy, morphology, development, genetics, evolution, reproduction, systematics, and biodiversity of all plant groups, algae, and fungi. The journal is affiliated with the Institute of Plant and Microbial Biology, Academia Sinica, Taiwan.
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