Liu Zhong Chuan, Xu Rui, Dong Yu Hui
Beijing Synchrotron Radiation Facility, Institute of High Energy Physics, Chinese Academy of Sciences, Beijing, People's Republic of China.
Acta Crystallogr A. 2012 Mar;68(Pt 2):256-65. doi: 10.1107/S0108767311053815. Epub 2012 Feb 7.
Solution of the phase problem is central to crystallographic structure determination. An oversampling method is proposed, based on the hybrid input-output algorithm (HIO) [Fienup (1982). Appl. Opt. 21, 2758-2769], to retrieve the phases of reflections in crystallography. This method can extend low-resolution structures to higher resolution for structure determination of proteins without additional sample preparation. The method requires an envelope of the protein which divides a unit cell into the density region where the proteins are located and the non-density region occupied by solvents. After a few hundred to a few thousand iterations, the correct phases and density maps are recovered. The method has been used successfully in several cases to retrieve the phases from the experimental X-ray diffraction data and the envelopes of proteins constructed from structure files downloaded from the Protein Data Bank. It is hoped that this method will greatly facilitate the ab initio structure determination of proteins.
相位问题的解决对于晶体结构测定至关重要。基于混合输入输出算法(HIO)[菲纽普(1982年)。《应用光学》21卷,2758 - 2769页],提出了一种过采样方法,用于在晶体学中检索反射的相位。该方法可以将低分辨率结构扩展到更高分辨率,无需额外的样品制备即可用于蛋白质的结构测定。此方法需要蛋白质的一个包络,该包络将一个晶胞划分为蛋白质所在的密度区域和被溶剂占据的非密度区域。经过几百到几千次迭代后,可恢复正确的相位和密度图。该方法已在多个案例中成功用于从实验X射线衍射数据以及从蛋白质数据库下载的结构文件构建的蛋白质包络中检索相位。希望该方法将极大地促进蛋白质的从头结构测定。
