Richardson Peter M, Iali Wissam, Roy Soumya S, Rayner Peter J, Halse Meghan E, Duckett Simon B
The Centre for Hyperpolarisation in Magnetic Resonance , Department of Chemistry , University of York , UK . Email:
Chem Sci. 2019 Sep 24;10(45):10607-10619. doi: 10.1039/c9sc03450a. eCollection 2019 Dec 7.
Monosaccharides, such as glucose and fructose, are important to life. In this work we highlight how the rapid delivery of improved C detectability for sugars by nuclear magnetic resonance (NMR) can be achieved using the -hydrogen based NMR hyperpolarization method SABRE-Relay (Signal Amplification by Reversible Exchange-Relay). The significant C signal enhancements of 250 at a high field of 9.4 T, and 3100 at a low field of 1 T, enable the detection of trace amounts of these materials as well as the quantification of their tautomeric makeup. Using studies on C and H isotopically labelled agents we demonstrate how hyperpolarization lifetime ( ) values can be extended, and how singlet states with long lifetimes can be created. The precise quantification of d-glucose-C- at the millimolar concentration level is shown to be possible within minutes in conjunction with a linear hyperpolarized response as a function of concentration. In addition to the measurements using labelled materials, low concentration detection is also illustrated for millimolar samples with natural abundance C where isomeric form quantification can be achieved with a single transient.
单糖,如葡萄糖和果糖,对生命至关重要。在这项工作中,我们强调了如何通过基于 - 氢的核磁共振(NMR)超极化方法SABRE - Relay(可逆交换 - 中继信号放大)实现对糖的改进的碳检测能力的快速传递。在9.4 T的高场下碳信号显著增强250倍,在1 T的低场下增强3100倍,这使得能够检测这些物质的痕量以及对其互变异构组成进行定量。通过对碳和氢同位素标记试剂的研究,我们展示了如何延长超极化寿命( )值,以及如何创建具有长寿命的单重态。结果表明,结合作为浓度函数的线性超极化响应,在几分钟内就可以在毫摩尔浓度水平上对d - 葡萄糖 - C - 进行精确量化。除了使用标记材料进行测量外,还展示了对具有天然丰度碳的毫摩尔样品的低浓度检测,其中可以通过单个瞬态实现异构体形式的定量。
