A technique that allows the elucidation of the three-dimensional structure of proteins, DNA, or other biomolecules at atomic-level resolution.
阐述蛋白质、DNA或其它生物分子的原子水平的三维结构的技术。
Proteins, the building material and the machines of life, can only become active when they fold and take on a three-dimensional structure.
蛋白质,生命的组成物质和机器,只有在正确折叠形成三维结构时才会具有活性。
Two dimensional crystallization of membrane proteins is the base on which their three dimensional structure are solved by electron crystallography.
膜蛋白的二维结晶化是蛋白质电子晶体学解析膜蛋白三维结构的基础。
It is concentrated on the three dimensional structure of human IGF1, and the combining regions between IGF1 and relative receptors and binding proteins.
集中介绍了IGF1的三维结构、IGF 1与相关受体和结合蛋白的结合区以及二硫键在蛋白质折叠中的重要作用。
The structural basis of molecular recognition in proteins is the specific three dimensional structure or folding of the proteins, the information for which is contained in the sequence.
蛋白质分子识别的结构基础是蛋白质的三维结构或折叠,其信息存在于氨基酸序列中。
Protein electron crystallography is now able to measure the three-dimensional structure of membrane proteins at atomic resolution.
蛋白质电子晶体学已能以原子分辨率解析膜蛋白三维结构。
When protein molecules do not completely lose three-dimensional structure. the Z values of the proteins were found to be proportional to the cubic root of their molecular weight.
在蛋白分子未完全失去分子立体结构时,其Z值与分子量的立方根成正比。
In this project, we set up the systematic methods for determine three-dimensional structure of proteins by using heteronuclear magnetic resonance.
通过本项目研究,建立了异核多维核磁共振测定蛋白质三维结构,研究结构与功能关系的系统方法。
The primary emphasis of the group's research is on the computational analysis and prediction of the function and three-dimensional structure of proteins from their amino acid sequence.
此小组的研究重点是蛋白质的功能和三维结构的计算分析和预测。
The primary emphasis of the group's research is on the computational analysis and prediction of the function and three-dimensional structure of proteins from their amino acid sequence.
此小组的研究重点是蛋白质的功能和三维结构的计算分析和预测。
应用推荐