1) protein transduction domain
蛋白质转导结构域
1.
Reconstruction of an intracellular transduction system based on HIV-1 TAT protein transduction domain;
一种基于HIV-1TAT蛋白质转导结构域细胞内转导系统的成功改建
2.
Protein transduction domains(PTDs) are small cationic peptides.
第一部分 蛋白质转导结构域(protein transduction domain,PTD)是一类具有跨膜活性的、富含碱性氨基酸残基的肽段。
2) protein transduction domains
蛋白质转导结构域
1.
Intracellular delivery of bioloyically active macromolecules by protein transduction domains (PTDs);
利用蛋白质转导结构域进行生物大分子的胞内转运
3) Protein transduction domain
蛋白转导结构域
1.
Recently, it has been found that the protein transduction domain has the ability of permeating cell membrane and can exert bioactivity by taking permeability cell membrane of macromolecular peptides into cells.
近年来 ,人们发现蛋白转导结构域具有穿透细胞膜的能力 ,并能携带大分子肽类通透细胞膜进入细胞内发挥生物活性。
2.
Protein transduction as a new biotechnology,was reviewed in the aspects of its discovery,structural and functional characteristics of its protein transduction domain(PTD),and the functional mec-hanism of PTD.
综述了蛋白转导的发现、蛋白转导结构域(PTD)的结构组成特点、蛋白转导的作用特点、PTD的作用机理以及蛋白转导的应用前景等。
3.
To construct a recombinant plasmid containing protein transduction domain(PTD) and brain derived neurotrophic factor(BDNF) fusion gene and express in E.
构建含蛋白转导结构域(PTD)与脑源性神经营养因子(BDNF)融合基因的质粒,并在大肠肝菌中表达。
5) Protein transduction domain (PTD)
蛋白转导结构域(PTD)
6) Protein transduction domain
蛋白质转导域
1.
Aim:To observe the protective effects of protein transduction domain-kallikrein(PTD-kallikrein)on neurons incubated in condition of oxygen-glucose deprivation(OGD)/recovery,and to explore the protective mechanism.
目的:观察蛋白质转导域-激肽释放酶(PTD-kallikrein)对缺糖、缺氧(OGD)再复糖、复氧培养的神经元保护作用,探讨其可能的作用机制。
2.
Protein transduction or protein therapy, as an important approach of disease therapy, is achieved through linking exogenous therapeutic proteins to the fragment of amino acid, termed as protein transduction domain, using the expression vector or chemical cross-linking method.
蛋白质转导或蛋白质治疗是通过表达载体法或化学交联法将具有治疗作用的外源性蛋白质与称为蛋白质转导域的氨基酸片段相连,以非受体和非温度依赖的方式越细胞膜进入胞内达到治疗疾病的目的。
补充资料:蛋白质结构
蛋白质结构
protein structure
蛋白质的结构分为四级。蛋白质的一级结构表明氨基酸的排列顺序和连接方式;二级结构指多肽链的肽链骨架借肽链平面与α-碳原子的单键的旋转性绕成的螺旋结构(即α-螺旋)或折叠成的片层状结构(即β-片层结构);三级结构表示每条多肽链的折叠方式;四级结构表示组成蛋白质的亚基相互联系的方式。蛋白质的结构与其功能密切相关。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条