生长中的碳酸钙鲍鱼壳中的无机磷酸盐表明存在共同的矿物祖先前体。

Inorganic phosphate in growing calcium carbonate abalone shell suggests a shared mineral ancestral precursor.

作者信息

Ajili Widad, Tovani Camila B, Fouassier Justine, de Frutos Marta, Laurent Guillaume Pierre, Bertani Philippe, Djediat Chakib, Marin Frédéric, Auzoux-Bordenave Stéphanie, Azaïs Thierry, Nassif Nadine

机构信息

Sorbonne Université, CNRS, Collège de France, Laboratoire de Chimie de la Matière Condensée de Paris (LCMCP), 4 place Jussieu, F-75005, Paris, France.

Laboratoire de Biologie des Organismes et Ecosystèmes Aquatiques (BOREA), Muséum National d'Histoire Naturelle/CNRS/IRD/Sorbonne Université/UCN/UA, Station marine de Concarneau, 29900, Concarneau, France.

出版信息

Nat Commun. 2022 Mar 21;13(1):1496. doi: 10.1038/s41467-022-29169-9.

DOI:10.1038/s41467-022-29169-9

PMID:35314701

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8938516/

Abstract

The presence of phosphate from different origins (inorganic, bioorganic) is found more and more in calcium carbonate-based biominerals. Phosphate is often described as being responsible for the stabilization of the transient amorphous calcium carbonate phase. In order to specify the composition of the mineral phase deposited at the onset of carbonated shell formation, the present study investigates, down to the nanoscale, the growing shell from the European abalone Haliotis tuberculata, using a combination of solid state nuclear magnetic resonance, scanning transmission electron microscope and spatially-resolved electron energy loss spectroscopy techniques. We show the co-occurrence of inorganic phosphate with calcium and carbonate throughout the early stages of abalone shell formation. One possible hypothesis is that this first-formed mixed mineral phase represents the vestige of a shared ancestral mineral precursor that appeared early during Evolution. In addition, our findings strengthen the idea that the final crystalline phase (calcium carbonate or phosphate) depends strongly on the nature of the mineral-associated proteins in vivo.

摘要

在基于碳酸钙的生物矿物中，越来越多地发现了来自不同来源（无机、生物有机）的磷酸盐。磷酸盐通常被认为是负责稳定瞬态无定形碳酸钙相的物质。为了明确在碳酸化贝壳形成开始时沉积的矿物相的组成，本研究使用固态核磁共振、扫描透射电子显微镜和空间分辨电子能量损失光谱技术，对欧洲鲍鱼Haliotis tuberculata正在生长的贝壳进行了纳米级的研究。我们展示了在鲍鱼贝壳形成的早期阶段，无机磷酸盐与钙和碳酸盐同时存在。一种可能的假设是，这种首先形成的混合矿物相代表了在进化早期出现的共同祖先矿物前体的遗迹。此外，我们的研究结果强化了这样一种观点，即最终的结晶相（碳酸钙或磷酸盐）在很大程度上取决于体内与矿物相关的蛋白质的性质。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e704/8938516/e6bd2425122b/41467_2022_29169_Fig1_HTML.jpg

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生长中的碳酸钙鲍鱼壳中的无机磷酸盐表明存在共同的矿物祖先前体。

Inorganic phosphate in growing calcium carbonate abalone shell suggests a shared mineral ancestral precursor.

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