Synchrotron X-rays reveal the modes of Fe binding and trace metal storage in the brown algae Laminaria digitata and Ectocarpus siliculosus.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2023-10-04 DOI:10.1093/mtomcs/mfad058
Ana Mijovilovich, Peter Cloetens, Antonio Lanzirotti, Matt Newville, Gerd Wellenreuther, Puja Kumari, Christos Katsaros, Carl J Carrano, Hendrik Küpper, Frithjof C Küpper
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Abstract

Iron is accumulated symplastically in kelp in a non-ferritin core that seems to be a general feature of brown algae. Microprobe studies show that Fe binding depends on tissue type. The sea is generally an iron-poor environment and brown algae were recognized in recent years for having a unique, ferritin-free iron storage system. Kelp (Laminaria digitata) and the filamentous brown alga Ectocarpus siliculosus were investigated using X-ray microprobe imaging and nanoprobe X-ray fluorescence tomography to explore the localization of iron, arsenic, strontium, and zinc, and micro-X-ray absorption near-edge structure (μXANES) to study Fe binding. Fe distribution in frozen hydrated environmental samples of both algae shows higher accumulation in the cortex with symplastic subcellular localization. This should be seen in the context of recent ultrastructural insight by cryofixation-freeze substitution that found a new type of cisternae that may have a storage function but differs from the apoplastic Fe accumulation found by conventional chemical fixation. Zn distribution co-localizes with Fe in E. siliculosus, whereas it is chiefly located in the L. digitata medulla, which is similar to As and Sr. Both As and Sr are mostly found at the cell wall of both algae. XANES spectra indicate that Fe in L. digitata is stored in a mineral non-ferritin core, due to the lack of ferritin-encoding genes. We show that the L. digitata cortex contains mostly a ferritin-like mineral, while the meristoderm may include an additional component.

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同步辐射X射线揭示了褐藻Laminaria digita和Ectocarpus siliculosus中Fe结合和微量金属储存的模式。
海洋通常是一个贫铁的环境,近年来,褐藻因其独特的、不含铁蛋白的铁储存系统而被公认。使用X射线微探针成像和纳米探针XRF断层扫描对海带(Laminaria digita)和丝状褐藻Ectocarpus siliculosus进行了研究,以探索铁、砷、锶和锌的定位,并使用µXANES研究铁的结合。两种藻类的冷冻水合环境样品中的铁分布在皮层中表现出更高的积累,具有同质体亚细胞定位。这应该从冷冻固定冷冻替代的最新超微结构观察中看出,冷冻替代发现了一种新型的池,它可能具有储存功能,但不同于传统化学固定发现的质外体铁积累。Zn在硅藻中与Fe共定位,而主要分布在趾藻髓质,与As和Sr相似。XANES光谱表明,由于缺乏铁蛋白编码基因,数字化乳杆菌中的铁储存在非铁蛋白的矿物核心中。我们发现,L.digita皮层主要含有铁蛋白样矿物,而分生组织可能含有额外的成分。
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
Metallomics
Metallomics 生物-生化与分子生物学
CiteScore
7.00
自引率
5.90%
发文量
87
审稿时长
1 months
期刊介绍: Global approaches to metals in the biosciences
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