Jain Mukul G, Lalli Daniela, Stanek Jan, Gowda Chandrakala, Prakash Satya, Schwarzer Tom S, Schubeis Tobias, Castiglione Kathrin, Andreas Loren B, Madhu P K, Pintacuda Guido, Agarwal Vipin
TIFR Centre for Interdisciplinary Sciences, Tata Institute of Fundamental Research , 21 Brundavan Colony, Narsingi, Hyderabad 500 075, India.
Centre de RMN à Très Hauts Champs, Institut des Sciences Analytiques (UMR 5280 - CNRS, ENS Lyon, UCB Lyon 1), Université de Lyon , 5 rue de la Doua, 69100 Villeurbanne, France.
J Phys Chem Lett. 2017 Jun 1;8(11):2399-2405. doi: 10.1021/acs.jpclett.7b00983. Epub 2017 May 15.
Very fast magic-angle spinning (MAS > 80 kHz) NMR combined with high-field magnets has enabled the acquisition of proton-detected spectra in fully protonated solid samples with sufficient resolution and sensitivity. One of the primary challenges in structure determination of protein is observing long-range H-H contacts. Here we use band-selective spin-lock pulses to obtain selective H-H contacts (e.g., H-H) on the order of 5-6 Å in fully protonated proteins at 111 kHz MAS. This approach is a major advancement in structural characterization of proteins given that magnetization can be selectively transferred between protons that are 5-6 Å apart despite the presence of other protons at shorter distance. The observed contacts are similar to those previously observed only in perdeuterated proteins with selective protonation. Simulations and experiments show the proposed method has performance that is superior to that of the currently used methods. The method is demonstrated on GB1 and a β-barrel membrane protein, AlkL.
结合高场磁体的极快速魔角旋转(MAS > 80 kHz)核磁共振技术,已能够在完全质子化的固体样品中采集具有足够分辨率和灵敏度的质子检测光谱。蛋白质结构测定中的主要挑战之一是观察长程H-H接触。在此,我们使用带选择性自旋锁定脉冲,在111 kHz MAS条件下,在完全质子化的蛋白质中获得约5-6 Å量级的选择性H-H接触(如Hα-Hα)。鉴于磁化可在相距5-6 Å的质子之间选择性转移,尽管存在距离更近的其他质子,该方法是蛋白质结构表征方面的一项重大进展。观察到的接触类似于之前仅在具有选择性质子化的全氘代蛋白质中观察到的接触。模拟和实验表明,所提出的方法具有优于当前使用方法的性能。该方法已在GB1和一种β-桶状膜蛋白AlkL上得到验证。
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