Sulphur-mediated iron homeostasis in four tetraploid wheats (Triticum turgidum L.).

IF 4.2 3区生物学 Q1 PLANT SCIENCES

Plant Biology Pub Date : 2025-05-16 DOI:10.1111/plb.70035

E Coppa, G Quagliata, M D G Molina, M Maghrebi, G Vigani, F Sestili, S Astolfi

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引用次数: 0

Abstract

Sulphur (S) deficiency is known to hinder iron (Fe) uptake and distribution in wheat, mainly by reducing phytosiderophores (PS) synthesis and release. This study investigated the impact of S supply on Fe accumulation in four tetraploid wheat genotypes with different genetic backgrounds: a modern genotype, Svevo (Triticum turgidum subsp. durum), two ancient Khorasan wheats, Turanicum_21 and Etrusco (T. turgidum subsp. turanicum) and an ancient Polish wheat, Polonicum_2 (T. turgidum subsp. polonicum). Plants were grown hydroponically for 20 days under adequate (S = 1.2 mM) or limiting (L = 0.06 mM) sulfate levels, while receiving sufficient Fe (80 μM). Most genotypes exhibited reduced Fe accumulation under low S conditions, as expected. However, Polonicum_2 showed a unique response, accumulating significantly more Fe in both shoots and roots. This increased Fe accumulation was associated with a higher rate of PS release and upregulation of both TdYSL15 and TdIRO2 in roots of Polonicum_2, suggesting altered regulation of Fe deficiency responses. However, the expression pattern of TdIDEF1 was not correlated with TdYSL15 expression in this plant, suggesting the involvement of additional regulatory pathways beyond Fe supply. Finally, there was a strong correlation between O-acetylserine(thiol)lyase activity in shoot tissues and PS release rate across all genotypes. There is increased interest in Khorasan and Polish wheats as alternative crops for marginal areas, hence, these findings are noteworthy from a biofortification perspective and could potentially lead to innovations in agriculture that benefit food security.

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四种四倍体小麦（Triticum turgidum L.）中硫介导的铁稳态

硫(S)缺乏阻碍铁（Fe）在小麦中的吸收和分布，主要是通过减少植物铁载体（PS）的合成和释放。本研究研究了4个具有不同遗传背景的四倍体小麦基因型：现代基因型Svevo (Triticum turgidum subsp)；durum)，两种古呼罗珊小麦，Turanicum_21和Etrusco (T. turgidum subsp。一种古老的波兰小麦Polonicum_2 （T. turgidum subsp.）。在波兰)。植株在足够（S = 1.2 mM）或限制（L = 0.06 mM）硫酸盐水平下水培20天，同时接受足够的铁（80 μM）。正如预期的那样，大多数基因型在低硫条件下表现出铁积累减少。而Polonicum_2表现出独特的响应，在茎和根中积累的铁都显著高于Polonicum_2。这种铁积累的增加与poonicum_2根中PS释放速率的提高以及TdYSL15和TdIRO2的上调有关，表明铁缺乏反应的调节发生了改变。然而，在这种植物中，TdIDEF1的表达模式与TdYSL15的表达不相关，这表明除了铁供应外，还参与了其他调节途径。最后，在所有基因型中，茎部组织中o -乙酰丝氨酸（硫醇）裂解酶活性与PS释放率有很强的相关性。人们对呼罗珊小麦和波兰小麦作为边缘地区的替代作物越来越感兴趣，因此，从生物强化的角度来看，这些发现值得注意，并可能导致有利于粮食安全的农业创新。

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

Plant Biology 生物-植物科学

CiteScore

8.20

自引率

2.60%

发文量

109

审稿时长

3 months

期刊介绍： Plant Biology is an international journal of broad scope bringing together the different subdisciplines, such as physiology, molecular biology, cell biology, development, genetics, systematics, ecology, evolution, ecophysiology, plant-microbe interactions, and mycology. Plant Biology publishes original problem-oriented full-length research papers, short research papers, and review articles. Discussion of hot topics and provocative opinion articles are published under the heading Acute Views. From a multidisciplinary perspective, Plant Biology will provide a platform for publication, information and debate, encompassing all areas which fall within the scope of plant science.