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.
贝壳珍珠层作为一种典型的生物矿化材料而备受关注。
Microstructured biomaterials such as nacreous layer from mollusk shells receive much attention at present.
近年来,生物矿化的模拟和仿生材料的研究十分引人注目。
The researches of biomineralization and bionic materials are very active recently.
尿结石是异常生物矿化的产物,由无机晶体和有机基质组成。
Urinary stone is a kind of product of unusual biomineralization. It is made up of inorganic crystal and organic matrix.
聚丙烯酸钠模仿了生物矿化中有机基质对无机晶体生长的调制作用。
Sodium polyacrylate mimicked the role of organic matrix in modulating crystal growth in biomineralization.
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 .
在静态条件下,利用生物矿化针铁矿对含铬模拟废水进行吸附实验研究。
The sorption experimental study on chromium-containing wastewater treatment with biomineralized goethite(B.
木材生物矿化往往能形成有序排列的、结构非常优异的天然有机—无机复合材料。
The wood by biomineralization often leads to the formation of the excellent structure natural organic-inorganic composite.
研究微生物与矿物的相互作用,能够为矿物的风化机理和生物矿化提供一定的理论依据。
The Research of interaction between minerals and microbes can provide theory evidence to weathering mechanism and biomineralization.
因此,难溶性的无机磷向可溶性磷的转化和有机磷的生物矿化对植物的磷素营养是十分重要的。
As the result, it is important to convert insoluble P into soluble P and to release P from lecithin .
通过对生物矿化机理的模拟,已经合成了纳米微粒、有机-无机复合物、类生物矿物结构物质。
Based on the imitation on biomineralization, a lot of materials such as nanocrystal, organic-inorganic composite and hierarchical inorganic materials are fabricated.
釉基质蛋白为釉基质衍生物与其相应载体的结合物,具有促进牙周组织的再生、生物矿化和骨诱导等生物特性。
Emdogain is the conjugate of enamel matrix derivative and corresponding carrier, which can promote regeneration of periodontal tissues, biomineralization, bone induction and so on.
牙本质基质蛋白(DMP)- 1是骨、软骨、釉质、牙骨质和牙本质生物矿化所必需的一种酸性非胶原蛋白。
Dentin matrix protein (DMP) -1 is an acidic non-collagenous protein that is necessary for the proper biomineralization of bone, cartilage, cementum, dentin and enamel.
概括了囊泡在反应微环境、药物释放、基因载体和生物矿化等方面的潜在应用;并提出了聚合物构筑囊泡的发展前景。
The potential applications of the polymeric vesicles in some fields, such as micro-circumstance, the release of drug, gene engineering and biomineralization were introduced.
阐述了生物矿化作用机理及其主要的生物控制因素,介绍了模拟生物矿化控制超细粉末结构形貌的三个途径,并展望了其发展趋势。
Three main approaches controlling structure and morphology of ultrafines by modeling biological mineralization are introduced, and its development is looked for ahead.
这个研究属于生物矿化(biomineralization),这其实是个很火的领域,《自然》(nature)或《自然—材料科学》(nature material)上永远一堆这种仿生的灌水文。
The study belongs to biomineralization, which is a hot field in reality. There are many articles of this kind on the bionics in Nature or Natural Material.
明确了土壤有机硫形态的分级方法、有机硫的矿化及其影响因素以及外源无机硫和有机硫在土壤中的转化及生物有效性。
The fractionation procedures, mineralization of soil organic sulphur as well as the transformation and bio availability of added sulfur in soil were all discussed.
土壤活性有机碳是指土壤中移动快、稳定性差、易氧化、矿化,并对植物和土壤微生物活性较高的那部分碳,常可用水溶性有机碳、微生物量碳和易氧化碳等来进行表征。
Soil labile organic carbon (LOC) refers to the fractions of organic carbons that are easy to move and to be oxidized and mineralized, and they are quite available to plant and soil microorganisms.
微生物不仅使土壤有机质的分解和合成处于相对平衡状态,而且可矿化有机物提高土壤肥力。
Soil microbes can not only sustain the balance of decomposition and composition of soil organic matters, but also improve soil fertility by mineralizing the organic matters.
报道了赣州铀矿某分矿细菌堆浸工业化应用的概况,并介绍了生物接触氧化槽的结构和吸附尾液氧化再生循环利用的具体措施。
The construction characteristic of biomembrane oxidizing tank and specialty of packing material used in the process of bacterial heap leaching of uranium ore are introduced in this paper.
报道了赣州铀矿某分矿细菌堆浸工业化应用的概况,并介绍了生物接触氧化槽的结构和吸附尾液氧化再生循环利用的具体措施。
The construction characteristic of biomembrane oxidizing tank and specialty of packing material used in the process of bacterial heap leaching of uranium ore are introduced in this paper.
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