用于在天然丰度下研究小分子的快速ASAP-HSQC和ALSOFAST-HSQC脉冲序列的改进、扩展及实际应用方面

Improvements, extensions, and practical aspects of rapid ASAP-HSQC and ALSOFAST-HSQC pulse sequences for studying small molecules at natural abundance.

作者信息

Schulze-Sünninghausen David, Becker Johanna, Koos Martin R M, Luy Burkhard

机构信息

Institute of Organic Chemistry and Institute for Biological Interfaces 4 - Magnetic Resonance, Karlsruhe Institute of Technology (KIT), Fritz-Haber-Weg 6, 76131 Karlsruhe, Germany; Bruker BioSpin GmbH, Rudolf-Plank-Str. 23, 76275 Ettlingen, Germany.

Institute of Organic Chemistry and Institute for Biological Interfaces 4 - Magnetic Resonance, Karlsruhe Institute of Technology (KIT), Fritz-Haber-Weg 6, 76131 Karlsruhe, Germany.

出版信息

J Magn Reson. 2017 Aug;281:151-161. doi: 10.1016/j.jmr.2017.05.012. Epub 2017 May 24.

DOI:10.1016/j.jmr.2017.05.012

PMID:28603039

Abstract

Previously we introduced two novel NMR experiments for small molecules, the so-called ASAP-HSQC and ALSOFAST-HSQC (Schulze-Sünninghausen et al., 2014), which allow the detection of heteronuclear one-bond correlations in less than 30s at natural abundance. We propose an improved symmetrized pulse scheme of the basic experiment to minimize artifact intensities and the combination with non-uniform sampling to enable the acquisition of conventional HSQC spectra in as short as a couple of seconds and extremely C-resolved spectra in less than ten minutes. Based on steady state investigations, a first estimate to relative achievable signal intensities with respect to conventional, ASAP-, and ALSOFAST-HSQC experiments is given. In addition, we describe several extensions to the basic pulse schemes, like a multiplicity-edited version, a revised symmetrized CLIP-ASAP-HSQC, an ASAP-/ALSOFAST-HSQC sequence with broadband BIRD-based H,H decoupling, and a symmetrized sequence optimized for water suppression. Finally, RF-power considerations with respect to the high duty cycle of the experiments are given.

摘要

此前我们为小分子引入了两种新颖的核磁共振实验，即所谓的ASAP-HSQC和ALSOFAST-HSQC（舒尔茨-松宁豪森等人，2014年），它们能够在自然丰度下于不到30秒内检测异核一键相关性。我们提出了一种改进的基本实验对称脉冲方案，以最小化伪影强度，并与非均匀采样相结合，从而能够在短短几秒钟内采集传统HSQC谱，在不到十分钟内采集极高分辨率的碳谱。基于稳态研究，给出了相对于传统、ASAP-和ALSOFAST-HSQC实验相对可实现信号强度的初步估计。此外，我们描述了对基本脉冲方案的几种扩展，如多重性编辑版本、修订的对称CLIP-ASAP-HSQC、具有基于宽带BIRD的氢-氢去耦的ASAP-/ALSOFAST-HSQC序列以及针对水抑制优化的对称序列。最后，给出了关于实验高占空比的射频功率考量。

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用于在天然丰度下研究小分子的快速ASAP-HSQC和ALSOFAST-HSQC脉冲序列的改进、扩展及实际应用方面

Improvements, extensions, and practical aspects of rapid ASAP-HSQC and ALSOFAST-HSQC pulse sequences for studying small molecules at natural abundance.

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