运用X射线晶体学,科学家将大量的蛋白质或者病毒转换成了晶体形式,将其置于一束X射线光束之前。
In X-ray crystallography, scientists turn large quantities of a protein or virus into crystal form, placing it in front of an X-ray beam.
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。
Protein electron crystallography is now able to measure the three-dimensional structure of membrane proteins at atomic resolution.
实验上研究蛋白质结构的主要手段有X射线晶体学技术、核磁共振衍射技术、电子纤维技术等。
Currently, the main methodologies for high-resolution protein structure determination in experimentation have been available, such as X-ray crystallography, NMR, electron microscopy etc.
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。
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。
Two dimensional crystallization of membrane proteins is the base on which their three dimensional structure are solved by electron crystallography.
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