《溶液中通过 NMR 自动化蛋白质结构测定的 J-UNIO 方案》

The J-UNIO protocol for automated protein structure determination by NMR in solution.

机构信息

Department of Molecular Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.

出版信息

J Biomol NMR. 2012 Aug;53(4):341-54. doi: 10.1007/s10858-012-9645-2. Epub 2012 Jul 3.

DOI:10.1007/s10858-012-9645-2

PMID:22752932

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3541938/

Abstract

The J-UNIO (JCSG protocol using the software UNIO) procedure for automated protein structure determination by NMR in solution is introduced. In the present implementation, J-UNIO makes use of APSY-NMR spectroscopy, 3D heteronuclear-resolved [(1)H,(1)H]-NOESY experiments, and the software UNIO. Applications with proteins from the JCSG target list with sizes up to 150 residues showed that the procedure is highly robust and efficient. In all instances the correct polypeptide fold was obtained in the first round of automated data analysis and structure calculation. After interactive validation of the data obtained from the automated routine, the quality of the final structures was comparable to results from interactive structure determination. Special advantages are that the NMR data have been recorded with 6-10 days of instrument time per protein, that there is only a single step of chemical shift adjustments to relate the backbone signals in the APSY-NMR spectra with the corresponding backbone signals in the NOESY spectra, and that the NOE-based amino acid side chain chemical shift assignments are automatically focused on those residues that are heavily weighted in the structure calculation. The individual working steps of J-UNIO are illustrated with the structure determination of the protein YP_926445.1 from Shewanella amazonensis, and the results obtained with 17 JCSG targets are critically evaluated.

摘要

介绍了一种用于溶液中通过 NMR 自动测定蛋白质结构的 J-UNIO（使用 UNIO 软件的 JCSG 方案）程序。在目前的实现中，J-UNIO 利用 APSY-NMR 光谱学、3D 异核分辨 [(1)H,(1)H]-NOESY 实验和 UNIO 软件。用大小在 150 个残基以内的 JCSG 靶标列表中的蛋白质进行的应用表明，该程序具有高度的稳健性和高效性。在所有情况下，在自动化数据分析和结构计算的第一轮中，都获得了正确的多肽折叠。在对自动化常规得到的数据进行交互验证后，最终结构的质量可与交互结构测定的结果相媲美。其特殊优势在于，每个蛋白质仅需 6-10 天的仪器时间即可记录 NMR 数据，仅需进行一次化学位移调整步骤，即可将 APSY-NMR 光谱中的骨架信号与 NOESY 光谱中的相应骨架信号相关联，并且基于 NOE 的氨基酸侧链化学位移分配自动集中在那些在结构计算中权重较大的残基上。通过 Shewanella amazonensis 的 YP_926445.1 蛋白质结构测定来说明 J-UNIO 的各个工作步骤，并对 17 个 JCSG 靶标获得的结果进行了批判性评估。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2c2a/3541938/3ef8c642f730/nihms390571f1.jpg

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