Wong Leo E, Masse James E, Jaravine Victor, Orekhov Vladislav, Pervushin Konstantin
School of Biological Sciences, Nanyang Technological University, 60 Nanyang Drive, Singapore.
J Biomol NMR. 2008 Oct;42(2):77-86. doi: 10.1007/s10858-008-9269-8. Epub 2008 Sep 11.
The necessity to acquire large multidimensional datasets, a basis for assignment of NMR resonances, results in long data acquisition times during which substantial degradation of a protein sample might occur. Here we propose a method applicable for such a protein for automatic assignment of backbone resonances by direct inspection of multidimensional NMR spectra. In order to establish an optimal balance between completeness of resonance assignment and losses of cross-peaks due to dynamic processes/degradation of protein, assignment of backbone resonances is set as a stirring criterion for dynamically controlled targeted nonlinear NMR data acquisition. The result is demonstrated with the 12 kDa (13)C,(15) N-labeled apo-form of heme chaperone protein CcmE, where hydrolytic cleavage of 29 C-terminal amino acids is detected. For this protein, 90 and 98% of manually assignable resonances are automatically assigned within 10 and 40 h of nonlinear sampling of five 3D NMR spectra, respectively, instead of 600 h needed to complete the full time domain grid. In addition, resonances stemming from degradation products are identified. This study indicates that automatic resonance assignment might serve as a guiding criterion for optimal run-time allocation of NMR resources in applications to proteins prone to degradation.
获取大型多维数据集是进行核磁共振(NMR)共振峰归属的基础,但这会导致数据采集时间较长,在此期间蛋白质样品可能会发生显著降解。在此,我们提出一种适用于此类蛋白质的方法,通过直接检查多维NMR谱来自动归属主链共振峰。为了在共振峰归属的完整性与由于蛋白质动态过程/降解导致的交叉峰损失之间建立最佳平衡,将主链共振峰的归属设定为动态控制靶向非线性NMR数据采集的搅拌标准。以12 kDa的(13)C、(15)N标记的血红素伴侣蛋白CcmE的脱辅基形式为例进行了验证,其中检测到29个C末端氨基酸的水解裂解。对于该蛋白质,在对五个3D NMR谱进行非线性采样的10小时和40小时内,分别自动归属了90%和98%的可手动归属的共振峰,而不是完成完整时域网格所需的600小时。此外,还鉴定出了降解产物产生的共振峰。这项研究表明,自动共振峰归属可作为在应用于易降解蛋白质时优化NMR资源运行时间分配的指导标准。