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在 20 K 以下的静态样品中进行动态核极化增强的 ¹H-¹³C 双共振 NMR。

Dynamic nuclear polarization-enhanced ¹H-¹³C double resonance NMR in static samples below 20 K.

机构信息

Laboratory of Chemical Physics, National Institute of Diabetes and Digestive and Kidney Diseases, National Institute of Health, Bethesda, MD 20892-0520, USA.

出版信息

J Magn Reson. 2012 Aug;221:32-40. doi: 10.1016/j.jmr.2012.05.008. Epub 2012 May 27.

DOI:10.1016/j.jmr.2012.05.008
PMID:22743540
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3727229/
Abstract

We demonstrate the feasibility of one-dimensional and two-dimensional ¹H-¹³C double resonance NMR experiments with dynamic nuclear polarization (DNP) at 9.4 T and temperatures below 20 K, including both ¹H-¹³C cross-polarization and ¹H decoupling, and discuss the effects of polarizing agent type, polarizing agent concentration, temperature, and solvent deuteration. We describe a two-channel low-temperature DNP/NMR probe, capable of carrying the radio-frequency power load required for ¹H-¹³C cross-polarization and high-power proton decoupling. Experiments at 8 K and 16 K reveal a significant T₂ relaxation of ¹³C, induced by electron spin flips. Carr-Purcell experiments and numerical simulations of Carr-Purcell dephasing curves allow us to determine the effective correlation time of electron flips under our experimental conditions. The dependence of the DNP signal enhancement on electron spin concentration shows a maximum near 80 mM. Although no significant difference in the absolute DNP enhancements for triradical (DOTOPA-TEMPO) and biradical (TOTAPOL) dopants was found, the triradical produced greater DNP build-up rates, which are advantageous for DNP experiments. Additionally the feasibility of structural measurements on ¹³C-labeled biomolecules was demonstrated with a two-dimensional ¹³C-¹³C exchange spectrum of selectively ¹³C-labeled β-amyloid fibrils.

摘要

我们展示了在 9.4 T 磁场和低于 20 K 的温度下使用动态核极化 (DNP) 进行一维和二维 ¹H-¹³C 双共振 NMR 实验的可行性,包括 ¹H-¹³C 交叉极化和 ¹H 去耦,并讨论了极化剂类型、浓度、温度和溶剂氘代的影响。我们描述了一种双通道低温 DNP/NMR 探头,能够承载进行 ¹H-¹³C 交叉极化和高功率质子去耦所需的射频功率负载。在 8 K 和 16 K 的实验中,我们发现 ¹³C 的 T₂弛豫显著增强,这是由电子自旋翻转引起的。Carr-Purcell 实验和 Carr-Purcell 去相曲线的数值模拟使我们能够确定在我们的实验条件下电子翻转的有效相关时间。DNP 信号增强与电子自旋浓度的依赖性在 80 mM 左右达到最大值。虽然未发现三自由基(DOTOPA-TEMPO)和双自由基(TOTAPOL)掺杂剂在绝对 DNP 增强方面有明显差异,但三自由基产生更大的 DNP 积累速率,这有利于 DNP 实验。此外,通过对选择性 ¹³C 标记的β-淀粉样纤维进行二维 ¹³C-¹³C 交换谱实验,证明了对 ¹³C 标记生物分子进行结构测量的可行性。

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