Protein backbone and sidechain torsion angles predicted from NMR chemical shifts using artificial neural networks

被引:0
作者
Yang Shen
Ad Bax
机构
[1] National Institutes of Health,Laboratory of Chemical Physics, National Institute of Diabetes and Digestive and Kidney Diseases
来源
Journal of Biomolecular NMR | 2013年 / 56卷
关键词
Heteronuclear chemical shift; Secondary structure; Backbone and sidechain conformation; Dynamics; TALOS; Order parameter; Protein structure; SPARTA;
D O I
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中图分类号
学科分类号
摘要
A new program, TALOS-N, is introduced for predicting protein backbone torsion angles from NMR chemical shifts. The program relies far more extensively on the use of trained artificial neural networks than its predecessor, TALOS+. Validation on an independent set of proteins indicates that backbone torsion angles can be predicted for a larger, ≥90 % fraction of the residues, with an error rate smaller than ca 3.5 %, using an acceptance criterion that is nearly two-fold tighter than that used previously, and a root mean square difference between predicted and crystallographically observed (ϕ, ψ) torsion angles of ca 12º. TALOS-N also reports sidechain χ1 rotameric states for about 50 % of the residues, and a consistency with reference structures of 89 %. The program includes a neural network trained to identify secondary structure from residue sequence and chemical shifts.
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页码:227 / 241
页数:14
相关论文
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