Yamazaki T, Yoshida M, Kanaya S, Nakamura H, Nagayama K
Biometrology Lab, JEOL Limited, Tokyo, Japan.
Biochemistry. 1991 Jun 18;30(24):6036-47. doi: 10.1021/bi00238a030.
The assignments of individual magnetic resonances of backbone nuclei of a larger protein, ribonuclease H from Escherichia coli, which consists of 155 amino acid residues and has a molecular mass of 17.6 kDa are presented. To remove the problem of degenerate chemical shifts, which is inevitable in proteins of this size, three-dimensional NMR was applied. The strategy for the sequential assignment was, first, resonance peaks of amides were classified into 15 amino acid types by 1H-15N HMQC experiments with samples in which specific amino acids were labeled with 15N. Second, the amide 1H-15N peaks were connected along the amino acid sequence by tracing intraresidue and sequential NOE cross peaks. In order to obtain unambiguous NOE connectivities, four types of heteronuclear 3D NMR techniques, 1H-15N-1H 3D NOESY-HMQC, 1H-15N-1H 3D TOCSY-HMQC, 13C-1H-1H 3D HMQC-NOESY, and 13C-1H-1H 3D HMQC-TOCSY, were applied to proteins uniformly labeled either with 15N or with 13C. This method gave a systematic way to assign backbone nuclei (N, NH, C alpha H, and C alpha) of larger proteins. Results of the sequential assignments and identification of secondary structure elements that were revealed by NOE cross peaks among backbone protons are reported.
本文给出了来自大肠杆菌的较大蛋白质核糖核酸酶H主链核的各个磁共振归属,该蛋白质由155个氨基酸残基组成,分子量为17.6 kDa。为了解决这种大小蛋白质中不可避免的简并化学位移问题,采用了三维核磁共振技术。序列归属的策略是,首先,通过对特定氨基酸用15N标记的样品进行1H-15N HMQC实验,将酰胺的共振峰分类为15种氨基酸类型。其次,通过追踪残基内和序列间的NOE交叉峰,沿着氨基酸序列连接酰胺1H-15N峰。为了获得明确的NOE连接性,对用15N或13C均匀标记的蛋白质应用了四种类型的异核三维核磁共振技术,即1H-15N-1H三维NOESY-HMQC、1H-15N-1H三维TOCSY-HMQC、13C-1H-1H三维HMQC-NOESY和13C-1H-1H三维HMQC-TOCSY。该方法为较大蛋白质的主链核(N、NH、CαH和Cα)归属提供了一种系统的方法。报告了序列归属结果以及通过主链质子间的NOE交叉峰揭示的二级结构元件的鉴定结果。
