In this study, we studied the effect of initial Bombyx mori silk fibroin structure on the protein biomineralization, where the structural transition was induced by the alkali metal ion treatment.
以碱金属离子诱导桑蚕丝素蛋白溶液发生构象转变,研究了蛋白质初始结构对其矿化作用的影响。
Recent research and result in structure, properties and blend films of silk fibroin were summarized in this paper.
本文综述了国内外学者在丝素的结构、性能尤其在共混方面的研究及成果。
According to the chemical structure of sericin and fibroin, the mechanism of sericin removal is analyzed and the enzymatic degumming process and relevant equipment at abroad are also introduced.
文章从丝素与丝胶的化学结构着手,分析了酶练脱胶的原理,介绍了国外酶脱胶的工艺及精练设备。
The structure of cross-linked fibroin gel(CFG) prepared by the reaction of cross-linking (agent) epoxide polyethylene glycol diglycidyl ether(PGDE) with silk fibroin solution was investigated.
对丝素蛋白水溶液与环氧化合物交联剂(PGDE)反应制备的丝素凝胶(CFG)的结构进行了研究。
The microcapsule's physical structure will change with the concentration of the silk fibroin, which may affect its release ability.
丝素微胶囊具有良好的物理结构特征,但不同浓度的壁材具有不同的结构特性,并影响微胶囊的释放特性。
The composition, structure, property, preparation and current situation of comprehensive utilization of silk fibroin have been reviewed in this paper.
阐述了丝素蛋白的组成、结构、性质和制备方法,及其综合利用现状。
Conclusions The silk fibroin scaffold is a new type of scaffold with 3D space structure and good biodegradation. hUCMSCs could be used in the research of tissue engineering adipose.
结论:蚕丝蛋白生物支架具有良好的三维空间结构和生物降解性,人脐带间充质干细胞接种于蚕丝蛋白生物支架可用于组织工程化脂肪组织的研究;
In principle, this method should be applicable to immobilize other soluble enzymes which do not destroy the molecular structure of silk fibroin.
此种酶固定化方法原则上能够应用于其他不破坏蚕丝素蛋白分子结构的可溶性酶。
In principle, this method should be applicable to immobilize other soluble enzymes which do not destroy the molecular structure of silk fibroin.
此种酶固定化方法原则上能够应用于其他不破坏蚕丝素蛋白分子结构的可溶性酶。
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