来自赤道太平洋的pennate硅藻对铁的摄取和储存。

IF 2.9 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Metallomics Pub Date : 2022-05-31 DOI:10.1093/mtomcs/mfac035

B. Twining, S. Baines

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引用次数: 1

摘要

铁是海洋浮游植物的一种关键微量营养素，铁的可得性控制着海洋大片地区的初级产量和群落组成。Pennate硅藻是一种浮游植物，对低铁地区的铁添加有反应，其铁含量变化很大，而一些种类，如pseudonitzschia，已知利用铁蛋白储存铁以备后用。我们量化并绘制了来自铁限制的赤道太平洋的伪nitzschia自然种群的细胞内铁积累。加铁48小时后，近一半的积累铁定位在叶绿体附近的储存体中，这些储存体被认为是铁蛋白。在随后的48小时内，储存的铁通过随后的生长和分裂分配到细胞的其余部分，部分支持子细胞的铁含量。这项研究首次提供了对全球相关浮游植物群中铁细胞运输的定量观点，并展示了基于同步加速器的元素成像方法的独特能力。

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Luxury iron uptake and storage in pennate diatoms from the equatorial Pacific Ocean.

Iron is a key micronutrient for ocean phytoplankton, and the availability of iron controls primary production and community composition in large regions of the ocean. Pennate diatoms, a phytoplankton group that responds to iron additions in low-iron areas, can have highly variable iron contents, and some groups such as Pseudo-nitzschia are known to use ferritin to store iron for later use. We quantified and mapped the intracellular accumulation of iron by a natural population of Pseudo-nitzschia from the Fe-limited equatorial Pacific Ocean. Forty-eight hours after iron addition, nearly half of accumulated iron was localized in storage bodies adjacent to chloroplasts believed to represent ferritin. Over the subsequent 48 h, stored iron was distributed to the rest of the cell through subsequent growth and division, partially supporting the iron contents of the daughter cells. This study provides a first quantitative view into the cellular trafficking of iron in a globally relevant phytoplankton group and demonstrates the unique capabilities of synchrotron-based element imaging approaches.

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