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釉原蛋白影响透钙磷石晶体形态并促进其向磷酸氢钙二水合物的相转变。

Amelogenin Affects Brushite Crystal Morphology and Promotes Its Phase Transformation to Monetite.

作者信息

Ren Dongni, Ruan Qichao, Tao Jinhui, Lo Jonathan, Nutt Steven, Moradian-Oldak Janet

机构信息

Center for Craniofacial Molecular Biology, Herman Ostrow School of Dentistry, University of Southern California, Los Angeles, California 90033, United States.

Physical Sciences Division, Pacific Northwest National Laboratory, Richland, Washington 99352, United States.

出版信息

Cryst Growth Des. 2016 Sep 7;16(9):4981-4990. doi: 10.1021/acs.cgd.6b00569. Epub 2016 Aug 5.

DOI:10.1021/acs.cgd.6b00569
PMID:28808430
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5553050/
Abstract

Amelogenin protein is involved in organized apatite crystallization during enamel formation. Brushite (CaHPO·2HO), one of the precursors of hydroxyapatite mineralization , has been used for fabrication of biomaterials for hard tissue repair. In order to explore its potential application in biomimetic material synthesis, we studied the influence of the enamel protein amelogenin on brushite morphology and phase transformation to monetite. Our results show that amelogenin can adsorb onto the surface of brushite, leading to the formation of layered morphology on the (010) face. Amelogenin promoted the phase transformation of brushite into monetite (CaHPO) in the dry state, presumably by interacting with crystalline water layers in brushite unit cells. Changes to the crystal morphology mediated by amelogenin continued even after the phase transformation from brushite to monetite, leading to the formation of organized platelets with an interlocked structure. This effect of amelogenin on brushite morphology and the phase transformation to monetite could provide a new approach to developing biomimetic materials.

摘要

釉原蛋白在牙釉质形成过程中参与有序的磷灰石结晶。磷酸二氢钙(CaHPO·2HO)是羟基磷灰石矿化的前体之一,已被用于制造硬组织修复生物材料。为了探索其在仿生材料合成中的潜在应用,我们研究了牙釉质蛋白釉原蛋白对磷酸二氢钙形态以及向透钙磷石相转变的影响。我们的结果表明,釉原蛋白可以吸附在磷酸二氢钙表面,导致(010)面上形成层状形态。在干燥状态下,釉原蛋白促进了磷酸二氢钙向透钙磷石(CaHPO)的相转变,这可能是通过与磷酸二氢钙晶胞中的结晶水层相互作用实现的。即使在从磷酸二氢钙向透钙磷石的相转变之后,由釉原蛋白介导的晶体形态变化仍在继续,导致形成具有互锁结构的有序血小板。釉原蛋白对磷酸二氢钙形态以及向透钙磷石相转变的这种作用可为开发仿生材料提供一种新方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d3e/5553050/b1fdf417aee4/nihms885923f1.jpg

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