IRaPPA:基于信息检索的生物物理模型集成用于蛋白质组装选择
IRaPPA: information retrieval based integration of biophysical models for protein assembly selection.
作者信息
Moal Iain H, Barradas-Bautista Didier, Jiménez-García Brian, Torchala Mieczyslaw, van der Velde Arjan, Vreven Thom, Weng Zhiping, Bates Paul A, Fernández-Recio Juan
机构信息
European Molecular Biology Laboratory, European Bioinformatics Institute, Wellcome Trust Genome Campus, Hinxton, Cambridge, UK.
Life Science Department, Joint BSC-IRB Research Program in Computational Biology, Barcelona Supercomputing Center, Barcelona, Spain.
出版信息
Bioinformatics. 2017 Jun 15;33(12):1806-1813. doi: 10.1093/bioinformatics/btx068.
MOTIVATION
In order to function, proteins frequently bind to one another and form 3D assemblies. Knowledge of the atomic details of these structures helps our understanding of how proteins work together, how mutations can lead to disease, and facilitates the designing of drugs which prevent or mimic the interaction.
RESULTS
Atomic modeling of protein-protein interactions requires the selection of near-native structures from a set of docked poses based on their calculable properties. By considering this as an information retrieval problem, we have adapted methods developed for Internet search ranking and electoral voting into IRaPPA, a pipeline integrating biophysical properties. The approach enhances the identification of near-native structures when applied to four docking methods, resulting in a near-native appearing in the top 10 solutions for up to 50% of complexes benchmarked, and up to 70% in the top 100.
AVAILABILITY AND IMPLEMENTATION
IRaPPA has been implemented in the SwarmDock server ( http://bmm.crick.ac.uk/∼SwarmDock/ ), pyDock server ( http://life.bsc.es/pid/pydockrescoring/ ) and ZDOCK server ( http://zdock.umassmed.edu/ ), with code available on request.
CONTACT
SUPPLEMENTARY INFORMATION
Supplementary data are available at Bioinformatics online.
动机
为了发挥功能,蛋白质经常相互结合并形成三维组装体。了解这些结构的原子细节有助于我们理解蛋白质如何协同工作、突变如何导致疾病,并有助于设计预防或模拟这种相互作用的药物。
结果
蛋白质-蛋白质相互作用的原子建模需要根据可计算的性质从一组对接构象中选择接近天然的结构。通过将此视为一个信息检索问题,我们将为互联网搜索排名和选举投票开发的方法改编成了IRaPPA,这是一种整合生物物理性质的流程。当应用于四种对接方法时,该方法增强了对接近天然结构的识别,对于高达50%的基准复合物,接近天然的结构出现在前10个解决方案中,对于高达70%的复合物,接近天然的结构出现在前100个解决方案中。
可用性和实现方式
IRaPPA已在SwarmDock服务器(http://bmm.crick.ac.uk/∼SwarmDock/)、pyDock服务器(http://life.bsc.es/pid/pydockrescoring/)和ZDOCK服务器(http://zdock.umassmed.edu/)中实现,代码可根据要求提供。
联系方式
补充信息
补充数据可在《生物信息学》在线获取。
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