分子替换

IF 2.2 4区生物学

Acta Crystallographica Section D: Biological Crystallography Pub Date : 2007-12-04 DOI:10.1107/S0907444907058714

G. Murshudov, F. von Delft, C. Ballard

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引用次数: 25

摘要

2007年CCP4学习周末在雷丁大学举行。它的重点是最广泛使用的大分子晶体相控技术，分子替代(MR)。随着PDB中三维结构的数量急剧增加，该技术的普及和适用性也在增加。因此，组织这一技术的流行聚会是及时的。会议上介绍了流行和知名软件(AMoRe, MOLREP, PHASER)的最新发展，新算法和具有挑战性的案例研究。在1992年和2001年的CCP4学习周末，我们曾讨论过MR的话题，毫不奇怪，许多老朋友都被邀请回来讲述最新的故事。介绍环节由Phil Evans开始，他概述了MR. He的方法和手段，接着是Stefano Trapatoni，他描述了在AMoRe程序中实现的快速旋转函数的新算法。埃莉诺·多德森的演讲强调了这项技术的挑战，以及在开始使用生物信息学技术应用核磁共振之前分析所研究分子的重要性。模型生成和准备可以说是提高一个好的解决方案的可能性的最重要的步骤。在模型生成会议Geoff Barton描述了序列比对的各种生物信息学技术，这是MR技术的核心。Andrey Lebedev描述了MOLREP中内置的模型生成技术。Marc Delaure做了一个关于使用正态分析生成一系列分子替换搜索模型的演讲。第一天的最后一节是MR结果的验证和模型的完成。在这次会议上，Gerard Bricogne, Serge Cohen和Paul Adams分别描述了如何验证模型并使用BUSTER, ARP/wARP和PHENIX软件包完成模型。第二天是电子显微镜(EM)和核磁共振，案例研究和核磁共振管道。在第一次会议上，Jorge Navaza介绍了磁共振技术在EM中的应用，而Yong Xiong则介绍了将EM模型作为搜索模型的使用，Kevin Cowtan先生介绍了将分子的三维坐标拟合到电子密度图中的各种技术。在复杂案例中，Randy Read做了一个关于伪翻译处理的演讲，Michael Isupov和Adrian Lapthorn谈到了当前MR软件无法自动解决结构的具有挑战性的MR案例。他们还描述了……

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Molecular replacement

The CCP4 Study Weekend 2007 was held at the University of Reading. Its focus was on the most widely used macromolecular crystallographic phasing technique, molecular replacement (MR). As the number of three-dimensional structures in the PDB increases dramatically so does the popularity and applicability of this technique. Therefore, it was timely to organize this popular gathering on this technique. The meeting was a mixture of descriptions of latest developments in popular and well known software (AMoRe, MOLREP, PHASER), new algorithms and challenging case studies. The topic of MR was previously visited at the 1992 and 2001 CCP4 Study Weekends, not surprisingly many old friends were welcomed back to bring the story up to date. The introductory session started by Phil Evans who outlined the ways and means of MR. He was followed by Stefano Trapatoni who described new algorithms on fast rotation functions implemented in the program AMoRe. Eleanor Dodson's lecture highlighted challenges of the technique and the importance of analysing the molecule under study even before starting to apply MR using bioinformatics techniques. Model generation and preparation are arguably the most important steps in increasing the odds of a good solution. In the model generation session Geoff Barton described various bioinformatics techniques for the sequence alignment that is at the heart of the MR technique. Andrey Lebedev described the built-in model generation techniques in MOLREP. Marc Delaure gave a talk on the use of normal mode analysis to generate a series of search models for molecular replacement. The final session of the first day was on validation of MR results and model completion. In this session talks by Gerard Bricogne, Serge Cohen and Paul Adams described how to validate the model and complete it using the packages BUSTER, ARP/wARP and PHENIX, respectively. The second day was on electron microscopy (EM) and MR, case studies and MR pipelines. In the first session Jorge Navaza gave a talk on the use of techniques developed in MR for EM, while Yong Xiong talked about the use of EM models as a search model for MR. Kevin Cowtan described various techniques for fitting the three-dimensional coordinates of a molecule into an electron-density map. In the session complicated cases Randy Read gave a talk on dealing with pseudo-translation, Michael Isupov and Adrian Lapthorn talked about challenging MR cases where the current MR software is not able to solve the structure automatically. They also described …

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来源期刊

Acta Crystallographica Section D: Biological Crystallography 生物-晶体学

自引率

13.60%

发文量

审稿时长

3 months

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.