最佳模板在预测突变对蛋白质稳定性的影响方面优于同源模型。

Best templates outperform homology models in predicting the impact of mutations on protein stability.

机构信息

Center of Life Sciences, Skolkovo Institute of Science and Technology, Moscow 121205, Russia.

出版信息

Bioinformatics. 2022 Sep 15;38(18):4312-4320. doi: 10.1093/bioinformatics/btac515.

DOI:10.1093/bioinformatics/btac515

PMID:35894930

Abstract

MOTIVATION

Prediction of protein stability change upon mutation (ΔΔG) is crucial for facilitating protein engineering and understanding of protein folding principles. Robust prediction of protein folding free energy change requires the knowledge of protein three-dimensional (3D) structure. In case, protein 3D structure is not available, one can predict the structure from protein sequence; however, the perspectives of ΔΔG predictions for predicted protein structures are unknown. The accuracy of using 3D structures of the best templates for the ΔΔG prediction is also unclear.

RESULTS

To investigate these questions, we used a representative set of seven diverse and accurate publicly available tools (FoldX, Eris, Rosetta, DDGun, ACDC-NN, ThermoNet and DynaMut) for stability change prediction combined with AlphaFold or I-Tasser for protein 3D structure prediction. We found that best templates perform consistently better than (or similar to) homology models for all ΔΔG predictors. Our findings imply using the best template structure for the prediction of protein stability change upon mutation if the protein 3D structure is not available.

AVAILABILITY AND IMPLEMENTATION

The data are available at https://github.com/ivankovlab/template-vs-model.

SUPPLEMENTARY INFORMATION

Supplementary data are available at Bioinformatics online.

摘要

动机

预测突变时蛋白质稳定性的变化（ΔΔG）对于促进蛋白质工程和理解蛋白质折叠原理至关重要。准确预测蛋白质折叠自由能变化需要了解蛋白质的三维（3D）结构。如果没有蛋白质 3D 结构，可以从蛋白质序列预测结构；然而，预测蛋白质结构的ΔΔG 预测的观点尚不清楚。使用最佳模板的 3D 结构进行 ΔΔG 预测的准确性也不清楚。

结果

为了研究这些问题，我们使用了一组具有代表性的七个不同且准确的公开可用工具（FoldX、Eris、Rosetta、DDGun、ACDC-NN、ThermoNet 和 DynaMut）来进行稳定性变化预测，并结合 AlphaFold 或 I-Tasser 进行蛋白质 3D 结构预测。我们发现，对于所有的 ΔΔG 预测器，最佳模板的性能始终优于（或类似于）同源模型。我们的发现意味着，如果没有蛋白质 3D 结构，可以使用最佳模板结构来预测突变时蛋白质稳定性的变化。

可用性和实现

数据可在 https://github.com/ivankovlab/template-vs-model 上获得。

补充信息

补充数据可在生物信息学在线获得。

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最佳模板在预测突变对蛋白质稳定性的影响方面优于同源模型。

Best templates outperform homology models in predicting the impact of mutations on protein stability.

机构信息

出版信息

MOTIVATION

RESULTS

AVAILABILITY AND IMPLEMENTATION

SUPPLEMENTARY INFORMATION

动机

结果

可用性和实现

补充信息

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