为了测定这个结构,他们使用了一种称为X射线晶体学的方法。
To map the structure, the pair used a method called X-ray crystallography.
射线晶体学是研究分子详细的三维结构的主要方法——特别是已经发现的活体系统的分子。
X-ray Crystallography is the principal method by which the detailed 3 - dimensional structures of molecules - especially the molecules of living systems - have been discovered.
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.
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.
利用这种新型工具,Luger和他的同事进行了X射线晶体学和生物物理学研究,来看甲基化怎样影响染色质和核小体结构。
With this new set of tools, Luger and her colleagues did X-ray crystallographic and biophysical studies to see how methylation affects the structure of chromatin and nucleosomes.
利用这种新型工具,Luger和他的同事进行了X射线晶体学和生物物理学研究,来看甲基化怎样影响染色质和核小体结构。
With this new set of tools, Luger and her colleagues did X-ray crystallographic and biophysical studies to see how methylation affects the structure of chromatin and nucleosomes.
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