Loquet Antoine, Laage Ségolène, Gardiennet Carole, Elena Bénédicte, Emsley Lyndon, Böckmann Anja, Lesage Anne
Institut de Biologie et Chimie des Protéines, UMR 5086 CNRS/Université de Lyon 1, 7 passage du Vercors, 69367 Lyon, France.
J Am Chem Soc. 2008 Aug 13;130(32):10625-32. doi: 10.1021/ja801464g. Epub 2008 Jul 16.
A two-dimensional proton-mediated carbon-carbon correlation experiment that relies on through-bond heteronuclear magnetization transfers is demonstrated in the context of solid-state NMR of proteins. This new experiment, dubbed J-CHHC by analogy to the previously developed dipolar CHHC techniques, is shown to provide selective and sensitive correlations in the methyl region of 2D spectra of crystalline organic compounds. The method is then demonstrated on a microcrystalline sample of the dimeric protein Crh (2 x 10.4 kDa). A total of 34 new proton-proton contacts involving side-chain methyl groups were observed in the J-CHHC spectrum, which had not been observed with the conventional experiment. The contacts were then used as additional distance restraints for the 3D structure determination of this microcrystalline protein. Upon addition of these new distance restraints, which are in large part located in the hydrophobic core of the protein, the root-mean-square deviation with respect to the X-ray structure of the backbone atom coordinates of the 10 best conformers of the new ensemble of structures is reduced from 1.8 to 1.1 A.
在蛋白质的固态核磁共振研究中,展示了一种基于通过键的异核磁化转移的二维质子介导的碳 - 碳相关实验。这个新实验类似于之前开发的偶极CHHC技术,被称为J-CHHC,它在结晶有机化合物二维谱的甲基区域提供了选择性和灵敏的相关性。该方法随后在二聚体蛋白质Crh(2×10.4 kDa)的微晶样品上得到验证。在J-CHHC谱中总共观察到34个涉及侧链甲基的新质子 - 质子接触,这是传统实验未曾观察到的。这些接触随后被用作该微晶蛋白质三维结构测定的额外距离约束。加入这些大部分位于蛋白质疏水核心的新距离约束后,新结构集合中10个最佳构象的主链原子坐标相对于X射线结构的均方根偏差从1.8 Å降至1.1 Å。
