Zhang Tao, De-qiang Yao, Jiawei Wang, Yuan-xin Gu, H. Fan
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引用次数: 1
Abstract
A post-experimental identification/purification procedure similar to that described in Zhang et al. [(2015), IUCrJ, 2, 322-326] has been proposed for use in the treatment of multiphase protein serial crystallography (SX) diffraction snapshots. As a proof of concept, the procedure was tested using theoretical serial femtosecond crystallography (SFX) data from a mixture containing native and derivatized crystals of a protein. Two known proteins were taken as examples. Multiphase diffraction snapshots were subjected to two rounds of indexing using the program CrystFEL [White et al. (2012). J. Appl. Cryst. 45, 335-341]. In the first round, an ab initio indexing was performed to derive a set of approximate primitive unit-cell parameters, which are roughly the average of those from the native protein and the derivative. These parameters were then used in a second round of indexing as input to CrystFEL. The results were then used to separate the diffraction snapshots into two subsets corresponding to the native and the derivative. For each test sample, integration of the two subsets of snapshots separately led to two sets of three-dimensional diffraction intensities, one belonging to the native and the other to the derivative. Based on these two sets of intensities, a conventional single isomorphous replacement (SIR) procedure solved the structure easily.
与Zhang等人[(2015),IUCrJ, 2,322 -326]所描述的实验后鉴定/纯化程序类似,已被提出用于处理多相蛋白质序列晶体学(SX)衍射快照。作为概念证明,该程序使用理论序列飞秒晶体学(SFX)数据进行了测试,这些数据来自含有天然和衍生蛋白质晶体的混合物。以两种已知的蛋白质为例。使用CrystFEL程序对多相衍射快照进行了两轮索引[White et al.(2012)]。j:。[j].中国生物医学工程学报,2016,35(5):335-341。在第一轮中,进行从头开始索引以获得一组近似的原始单位细胞参数,这些参数大致是来自天然蛋白质和衍生物的平均值。然后在第二轮索引中使用这些参数作为输入到CrystFEL。然后利用结果将衍射快照分为对应于原生和导数的两个子集。对于每个测试样品,分别对两个快照子集进行积分,得到两组三维衍射强度,一组属于原生衍射强度,另一组属于导数衍射强度。基于这两组强度,传统的单同构替换(SIR)方法可以很容易地求解该结构。
期刊介绍:
Acta Crystallographica Section D welcomes the submission of articles covering any aspect of structural biology, with a particular emphasis on the structures of biological macromolecules or the methods used to determine them.
Reports on new structures of biological importance may address the smallest macromolecules to the largest complex molecular machines. These structures may have been determined using any structural biology technique including crystallography, NMR, cryoEM and/or other techniques. The key criterion is that such articles must present significant new insights into biological, chemical or medical sciences. The inclusion of complementary data that support the conclusions drawn from the structural studies (such as binding studies, mass spectrometry, enzyme assays, or analysis of mutants or other modified forms of biological macromolecule) is encouraged.
Methods articles may include new approaches to any aspect of biological structure determination or structure analysis but will only be accepted where they focus on new methods that are demonstrated to be of general applicability and importance to structural biology. Articles describing particularly difficult problems in structural biology are also welcomed, if the analysis would provide useful insights to others facing similar problems.
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