生物矿化过程

有迹象表明，在生物体内，DNA可以调控无机相的成核与生长，甚至诱导生物体内的生物矿化过程。

A critical implication was that DNA molecules could mediate the nucleation and growth of the inorganic phase and probably induce biomineralization in the biological system .

同源异型盒基因Msx-1在小鼠牙齿发育生物矿化过程中的表达研究

Developmental expression of homeobox gene Msx-1 during the cell differentiation and biomineralization of mouse teeth

PAX9参与牙本质和釉质的生物矿化过程。

PAX9 is involved in the biomineralization process of the dentine and enamel .

ALPL编码的TNAP蛋白不仅在生物矿化过程中具有至关重要作用，而且可能通过影响相关干细胞的生物学行为导致骨骼及牙齿发育异常。

Tissue-nonspecific alkaline phosphatase encoded by ALPL could play a role in biological mineralization , and have effects on biological behaviors of the related stem cells resulting in hypoplasia of teeth and / or bone .

模拟生物矿化过程原位合成活性纳米碳酸钙

Synthesis in situ of Active Calcium Carbonate Nanoparticles via Simulating Biomineralization

水凝胶-聚氨基酸组装体模拟生物矿化过程研究

Mimetic Process of Biomineralization Based on Hydrogel-poly ( amino acid ) Assemblies

仿生物矿化过程合成无机/有机复合体研究

Research on the Course of Bio - mineralization Synthesize Inorganic / organic Composites

早期生物矿化过程中紫外吸收动力学曲线上的负峰现象

A Phenomenon of Negative Peak Appeared in Kinetic Ultraviolet Absorb Curve of Initial Biomineralization

基质调控碳酸钙生物矿化过程及其体外模拟的研究进展

Research progress on biomineralization process of calcium carbonate mediated by organic matrix and its simulation

生物矿化过程机理为制备具有特殊功能的仿生材料提供了新的思路。

The new strategies for synthesis of functional biomaterials can be derived from mechanism of biomineralization .

此外，海绵骨针的特性及其生长机制和生物矿化过程也是研究热点。

Besides , the characteristics and biomineralization mechanisms of sponge spicules are also an active research area .

这些实验结果有助于深入理解与生物矿化过程紧密相关的酸性蛋白质在矿物形成过程中的调控作用。

These results provide us a deeper insight into the significances of the acidic proteins in vivo in the regulation of the formation process of biominerals . 3 .

正是由于羟基磷灰石与蛋白质形成了水溶性的复合物，使羟基磷灰石在蛋白质结构的基质上成核和自组装成为可能，从而引起和促进了生物矿化过程。

The interaction of BSA with calcium hydroxyapatite increased the solubility of calcium hydroxyapatite in aqueous solution , which is helpful for the formation of self organized structure of protein calcium hydroxyapatite complexes .

生物矿化过程中，细胞分泌的自组装有机物对无机物的形成起模板作用，使无机矿物具有一定的形状、尺寸、取向和结构。

During biomineralization , the self-assembly organic materials excreted by cells can act as templates for inorganic materials , inducing the formation of inorganic minerals with certain shape , size , orientation and structure .

探讨生物矿化过程中分子控制机理，即有机模板对无机晶体的调制作用，最具代表性的就是有机/无机界面分子识别理论。

This article reviews the current understanding of the biomineralization mechanism , especially the molecular control mechanism for organic matrix mediated biomineralization . The most representative biomineralization theory is based on molecular recognition at organic / inorganic interfaces .

许多生物矿化作用过程都与其不寻常的膜的组成和结构密切相关。

Phosphatidylcholine ( PC ) is one of the basic components of the biomembrane , which plays important roles in the biomineralization .

生物矿物及其矿化过程

Biominerals and Their Mineralization Process

对碳酸钙晶体生成机理的解释，有助于进一步研究像鲍鱼壳一样的生物的生物矿化过程。

The formation mechanism of the as-formed sample directed by the glass-slices was proposed , for which is helpful to further study formation processes of biomineralization , such as abalone shell . 3 .

甲壳素和壳聚糖在生物矿化和模拟矿化过程中的调控作用研究进展

Effect of Chitin and Chitosan on the Mineralization Process of Bio - minerals and Bio - mimic Materials

生物体能够在生物大分子的精确控制下，通过生物矿化过程合成具有特殊形貌和功能的生物矿物。

Biological systems are able to generate crystalline materials with complex morphologies and specific functions via the processes of biomineralization and these processes are elaborately controlled by some biomacromolecules .

然而，生物系统利用生物大分子作为模板、协同调节剂或基质，能够精确地控制生物矿化过程，导致具有特殊形貌和功能的有机/无机复合材料的形成。

Biological systems , however , use biomacromolecules as templets , cooperative modifiers or molds to precise control over the processes of biomineralization . This results in the formation of inorganic-organic composites with various special morphologies and functions .

以生物材料及其矿物质构成的复合材料为研究对象，建立生物材料演化过程和生物矿化过程中宏微观结合的非平衡统计模型。

In order to study the composition of biologic materials and its mineral makeup , a non-equilibrium statistical model of the evolution process of biologic materials and the process of bio-mineralization , correlating the microscopic mechanism with macroscopic properties has been constructed .