School of Life Sciences, Institute of Bioengineering, École Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland.
Swiss Institute of Bioinformatics (SIB), Lausanne, Switzerland.
Proteins. 2019 Dec;87(12):1100-1112. doi: 10.1002/prot.25787. Epub 2019 Aug 7.
We present our assessment of tertiary structure predictions for hard targets in Critical Assessment of Structure Prediction round 13 (CASP13). The analysis includes (a) assignment and discussion of best models through scores-aided visual inspection of models for each evaluation unit (EU); (b) ranking of predictors resulting from this evaluation and from global scores; and (c) evaluation of progress, state of the art, and current limitations of protein structure prediction. We witness a sizable improvement in tertiary structure prediction building on the progress observed from CASP11 to CASP12, with (a) top models reaching backbone RMSD <3 å for several EUs of size <150 residues, contributed by many groups; (b) at least one model that roughly captures global topology for all EUs, probably unprecedented in this track of CASP; and (c) even quite good models for full, unsplit targets. Better structure predictions are brought about mainly by improved residue-residue contact predictions, and since this CASP also by distance predictions, achieved through state-of-the-art machine learning methods which also progressed to work with slightly shallower alignments compared to CASP12. As we reach a new realm of tertiary structure prediction quality, new directions are proposed and explored for future CASPs: (a) dropping splitting into EUs, (b) rethinking difficulty metrics probably in terms of contact and distance predictions, (c) assessing also side chains for models of high backbone accuracy, and (d) assessing residue-wise and possibly residue-residue quality estimates.
我们对第十三轮结构预测关键评估(Critical Assessment of Structure Prediction round 13,CASP13)中硬目标的三级结构预测进行了评估。分析包括:(a)通过对每个评估单元(EU)的模型进行基于得分的直观检查,对最佳模型进行分配和讨论;(b)根据该评估和全球得分对预测器进行排名;(c)评估进展、技术水平和蛋白质结构预测的当前局限性。我们见证了基于从 CASP11 到 CASP12 观察到的进展的三级结构预测的大幅改进,包括:(a)许多团队提供的,针对小于 150 个残基的 EU,顶级模型的骨架 RMSD <3Å;(b)至少一个模型大致捕捉到所有 EU 的全局拓扑结构,在 CASP 的这一追踪中可能是前所未有的;(c)即使是对于完整、未拆分的目标,也有相当好的模型。更好的结构预测主要是通过改进残基-残基接触预测实现的,而在这个 CASP 中也通过距离预测实现,这是通过最先进的机器学习方法实现的,与 CASP12 相比,这些方法还进一步发展为可以处理稍微浅的比对。随着我们达到三级结构预测质量的新领域,为未来的 CASP 提出并探索了新的方向:(a)放弃将 EU 分割,(b)重新思考困难指标,可能是基于接触和距离预测,(c)评估高骨架准确性模型的侧链,以及(d)评估残基和可能的残基质量估计。
