Milan Zachrdla , Ertan Turhan , Christopher Pötzl , Aude Sadet , Paul R. Vasos , Dennis Kurzbach
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引用次数: 0
摘要
溶解动态核偏振(dDNP)实验中的超极化水已成为增强核磁共振(NMR)信号的一种有前途的方法,尤其是在蛋白质和肽的研究中。在本文中,我们重点研究了超极化水的 "质子交换-双重中继 "核奥弗霍塞尔效应(NOE)的应用,以实现丙氨酸-甘氨酸肽侧链中甲基的正信号增强。我们特别展示了一种级联超极化转移。溶剂和酰胺之间的初始质子交换将超极化引入肽。随后,分子间 NOE 将超极化首先传递到 Ala-Hα,然后在第二步传递到 Ala-CH3 分子。这两种 NOE 均为负号。因此,两次延时 NOE 途径会导致甲基相对于热平衡磁化的正信号增强。这种效应可能为甲基基团的超极化水基信号增强指明了方向,这种信号增强通常用于溶液中大型蛋白质的核磁共振研究。
Hyperpolarized nuclear Overhauser enhancement of alanine methyl groups by doubly relayed proton exchange
Hyperpolarized water in dissolution dynamic nuclear polarization (dDNP) experiments has emerged as a promising method for enhancing nuclear magnetic resonance (NMR) signals, particularly in studies of proteins and peptides. Herein, we focus on the application of “proton exchange-doubly relayed” nuclear Overhauser effects (NOE) from hyperpolarized water to achieve positive signal enhancement of methyl groups in the side chain of an alanine-glycine peptide. In particular, we show a cascade hyperpolarization transfer. Initial proton exchange between solvent and amide introduces hyperpolarization into the peptide. Subsequently, intermolecular NOE relays the hyperpolarization first to Ala-Hα and then in a second step to the Ala-CH3 moiety. Both NOEs have negative signs. Hence, the twice-relayed NOE pathway leads to a positive signal enhancement of the methyl group with respect to the thermal equilibrium magnetization. This effect might indicate a way towards hyperpolarized water-based signal enhancement for methyl groups, which are often used for NMR studies of large proteins in solution.
期刊介绍:
The Journal of Magnetic Resonance presents original technical and scientific papers in all aspects of magnetic resonance, including nuclear magnetic resonance spectroscopy (NMR) of solids and liquids, electron spin/paramagnetic resonance (EPR), in vivo magnetic resonance imaging (MRI) and spectroscopy (MRS), nuclear quadrupole resonance (NQR) and magnetic resonance phenomena at nearly zero fields or in combination with optics. The Journal''s main aims include deepening the physical principles underlying all these spectroscopies, publishing significant theoretical and experimental results leading to spectral and spatial progress in these areas, and opening new MR-based applications in chemistry, biology and medicine. The Journal also seeks descriptions of novel apparatuses, new experimental protocols, and new procedures of data analysis and interpretation - including computational and quantum-mechanical methods - capable of advancing MR spectroscopy and imaging.