不同生物体内蛋白质介导的无机和有机晶体的合成。生物矿化机制在所有现存物种的进化过程中都是保守的

IF 4.5 2区 材料科学 Q1 CRYSTALLOGRAPHY Progress in Crystal Growth and Characterization of Materials Pub Date : 2017-09-01 DOI:10.1016/j.pcrysgrow.2017.07.001
Mayra Cuéllar-Cruz
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引用次数: 15

摘要

通过生物矿化合成晶体是一个保护和支持保存在动物、原生生物、生物、植物和真菌中的过程。每个物种的基因组都已经进化到保存和/或修改一种或另一种晶体的形成,这些晶体可能是有机的或无机的。在生物体中发现的最常见的无机晶体包括碳酸钙(CaCO3)、磷酸钙(CaP)、草酸钙(CaOx)、磁铁矿或灰长岩,以及镉(CdS)、汞(HgS)和铅(PbS)的硫化物。有机晶体是蛋白质或冰的类型。这两种晶体的形成都需要蛋白质等生物分子。本文回顾了不同生物系统中不同晶体合成所涉及的蛋白质,以了解每种生物如何适应其基因组以保存生物矿化等基本机制,这使它们能够在不断变化的环境中生存数百万年。
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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Synthesis of inorganic and organic crystals mediated by proteins in different biological organisms. A mechanism of biomineralization conserved throughout evolution in all living species

The synthesis of crystals through biomineralization is a process of protection and support preserved in animals, protists, moneras, plants and fungi. The genome of every species has evolved to preserve and/or modify the formation of one or another type of crystal, which may be of the organic or inorganic type. The most common inorganic crystals identified in organisms include calcium carbonate (CaCO3), calcium phosphate (CaP), calcium oxalate (CaOx), magnetite or greigite, and sulfides of cadmium (CdS), mercury (HgS) and lead (PbS). Organic crystals are of the protein or ice type. The formation of both types of crystals requires biomolecules such as proteins. This paper reviews the proteins involved in the synthesis of different crystals in distinct biological systems, in order to understand how each organism has adapted its genome to preserve essential mechanisms such as biomineralization, which has enabled them to survive in a changing environment for millions of years.

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来源期刊
Progress in Crystal Growth and Characterization of Materials
Progress in Crystal Growth and Characterization of Materials 工程技术-材料科学:表征与测试
CiteScore
8.80
自引率
2.00%
发文量
10
审稿时长
1 day
期刊介绍: Materials especially crystalline materials provide the foundation of our modern technologically driven world. The domination of materials is achieved through detailed scientific research. Advances in the techniques of growing and assessing ever more perfect crystals of a wide range of materials lie at the roots of much of today''s advanced technology. The evolution and development of crystalline materials involves research by dedicated scientists in academia as well as industry involving a broad field of disciplines including biology, chemistry, physics, material sciences and engineering. Crucially important applications in information technology, photonics, energy storage and harvesting, environmental protection, medicine and food production require a deep understanding of and control of crystal growth. This can involve suitable growth methods and material characterization from the bulk down to the nano-scale.
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