Center for the Study of Systems Biology, School of Biology, Georgia Institute of Technology, Atlanta, Georgia 30318, USA.
Proteins. 2011 May;79(5):1623-34. doi: 10.1002/prot.22987. Epub 2011 Mar 1.
With the development of many computational methods that predict the structural models of protein-protein complexes, there is a pressing need to benchmark their performance. As was the case for protein monomers, assessing the quality of models of protein complexes is not straightforward. An effective scoring scheme should be able to detect substructure similarity and estimate its statistical significance. Here, we focus on characterizing the similarity of the interfaces of the complex and introduce two scoring functions. The first, the interfacial Template Modeling score (iTM-score), measures the geometric distance between the interfaces, while the second, the Interface Similarity score (IS-score), evaluates their residue-residue contact similarity in addition to their geometric similarity. We first demonstrate that the IS-score is more suitable for assessing docking models than the iTM-score. The IS-score is then validated in a large-scale benchmark test on 1562 dimeric complexes. Finally, the scoring function is applied to evaluate docking models submitted to the Critical Assessment of Prediction of Interactions (CAPRI) experiments. While the results according to the new scoring scheme are generally consistent with the original CAPRI assessment, the IS-score identifies models whose significance was previously underestimated.
随着许多预测蛋白质-蛋白质复合物结构模型的计算方法的发展,迫切需要对它们的性能进行基准测试。与蛋白质单体的情况一样,评估蛋白质复合物模型的质量并不简单。有效的评分方案应该能够检测亚结构相似性,并估计其统计显著性。在这里,我们专注于描述复合物界面的相似性,并引入了两种评分函数。第一个是界面模板建模评分(iTM-score),测量界面之间的几何距离,而第二个是界面相似性评分(IS-score),除了几何相似性之外,还评估它们的残基-残基接触相似性。我们首先证明 IS-score 比 iTM-score 更适合评估对接模型。然后,在对 1562 个二聚体复合物的大规模基准测试中验证了 IS-score。最后,该评分函数应用于评估提交给相互作用预测关键评估(CAPRI)实验的对接模型。虽然根据新评分方案的结果通常与原始 CAPRI 评估一致,但 IS-score 确定了先前被低估重要性的模型。
