28 特斯拉(1.2GHz)和 100kHz 魔角旋转条件下质子检测的膜蛋白固态 NMR。
Proton Detected Solid-State NMR of Membrane Proteins at 28 Tesla (1.2 GHz) and 100 kHz Magic-Angle Spinning.
机构信息
Department for NMR-Based Structural Biology, Max-Planck-Institute for Biophysical Chemistry, 37077 Göttingen, Germany.
出版信息
Biomolecules. 2021 May 18;11(5):752. doi: 10.3390/biom11050752.
The available magnetic field strength for high resolution NMR in persistent superconducting magnets has recently improved from 23.5 to 28 Tesla, increasing the proton resonance frequency from 1 to 1.2 GHz. For magic-angle spinning (MAS) NMR, this is expected to improve resolution, provided the sample preparation results in homogeneous broadening. We compare two-dimensional (2D) proton detected MAS NMR spectra of four membrane proteins at 950 and 1200 MHz. We find a consistent improvement in resolution that scales superlinearly with the increase in magnetic field for three of the four examples. In 3D and 4D spectra, which are now routinely acquired, this improvement indicates the ability to resolve at least 2 and 2.5 times as many signals, respectively.
最近,在持续超导磁体中进行高分辨率 NMR 时的可用磁场强度已从 23.5 特斯拉提高到了 28 特斯拉,质子共振频率从 1 GHz 提高到了 1.2 GHz。对于魔角旋转(MAS)NMR,如果样品制备导致均匀展宽,则有望提高分辨率。我们比较了在 950 MHz 和 1200 MHz 下四种膜蛋白的二维(2D)质子检测 MAS NMR 谱。我们发现,在四个例子中的三个中,分辨率都得到了一致的提高,这种提高与磁场的增加呈超线性关系。在现在常规采集的 3D 和 4D 谱中,这种提高表明能够分别解析出至少 2 倍和 2.5 倍数量的信号。
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