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使用 GARANT 程序进行同源蛋白的自动序列特异性 NMR 分配。

Automated sequence-specific NMR assignment of homologous proteins using the program GARANT.

机构信息

Institut für Molekularbiologie und Biophysik, Eidgenössische Technische Hochschule-Hönggerberg, CH-8093, Zürich, Switzerland.

出版信息

J Biomol NMR. 1996 May;7(3):207-13. doi: 10.1007/BF00202037.

DOI:10.1007/BF00202037
PMID:22911044
Abstract

The program GARANT (General Algorithm for Resonance AssignmeNT) for automated sequence-specific NMR assignment of proteins is based on the mapping of peaks predicted from the amino acid sequence onto the peaks observed in multidimensional spectra [C. Bartels, P. Güntert, M. Billeter and K. Wüthrich (1996) J. Comput. Chem., manuscript submitted for publication]. In this paper we demonstrate the potential of GARANT for the assignment of homologous proteins when either the three-dimensional structure or the chemical shifts of the parent protein are known. In these applications, GARANT utilizes supplementary information either in the form of interatomic distances derived from the three-dimensional structure, in order to add nuclear Overhauser effects reflecting the tertiary structure to the list of expected peaks, or in the form of the chemical shifts of the parent protein, in order to obtain a better estimate of the positions of the expected peaks. The procedure is illustrated with three different proteins: (i) a mutant form of Tendamistat (74 residues), using homonuclear 2D (1)H NMR spectra and either the three-dimensional structure or the chemical shifts of the wild-type protein; (ii) the mutant Antp(C39S, W56S) homeodomain (68 residues), using homonuclear 2D (1)H NMR spectra and the three-dimensional structure of the Antp(C39S) homeodomain; and (iii) free cyclophilin A (165 residues), using heteronuclear 3D NMR spectra and the three-dimensional structure of a cyclophilin A-cyclosporin A complex. In these three systems nearly complete assignment of the polypeptide backbone resonances and assignment of over 80% of the amino acid side-chain resonances was obtained without manual intervention.

摘要

程序 GARANT(通用共振分配算法)用于自动化的蛋白质序列特异性 NMR 分配,是基于将从氨基酸序列预测的峰映射到多维谱中观察到的峰[C. Bartels, P. Güntert, M. Billeter 和 K. Wüthrich(1996)J. Comput. Chem.,手稿提交出版]。在本文中,我们展示了当三维结构或母蛋白的化学位移已知时,GARANT 用于分配同源蛋白的潜力。在这些应用中,GARANT 利用来自三维结构的原子间距离等补充信息,以将反映三级结构的核 Overhauser 效应添加到预期峰列表中,或者利用母蛋白的化学位移,以获得更好的预期峰位置的估计。该程序通过三种不同的蛋白质进行说明:(i)使用同核二维(1)H NMR 光谱和野生型蛋白的三维结构或化学位移,对 Tendamistat(74 个残基)的突变体形式进行处理;(ii)使用同核二维(1)H NMR 光谱和 Antp(C39S)同源域的三维结构,对 Antp(C39S,W56S)同源域(68 个残基)的突变体进行处理;(iii)使用异核 3D NMR 光谱和环孢菌素 A 环孢菌素 A 复合物的三维结构,对游离亲环素 A(165 个残基)进行处理。在这三个系统中,几乎完全分配了多肽骨架共振,并分配了超过 80%的氨基酸侧链共振,而无需手动干预。

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