ViscY NMR experiments in phosphoric acid as a viscous solvent for individualization of small molecules within mixtures by spin diffusion

The analysis of small molecules within complex mixtures is a particularly difficult task when dealing with the study of metabolite mixtures or chemical reaction media. This issue has fostered in recent years an active search for effective and practical solutions. In this context, the ViscY NMR appro...

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Bibliographic Details
Published in:Analyst (London) 2021-09, Vol.146 (17), p.5316-5325
Main Authors: Pedinielli, Francois, Leroy, Ritchy, Martinez, Agathe, Nuzillard, Jean-Marc, Lameiras, Pedro
Format: Article
Language:English
Subjects:
Analytical chemistry
Chemical reactions
Chemical Sciences
Dilution
Electron spin
Experiments
Metabolites
Mixtures
Nitrogen isotopes
NMR
Nuclear magnetic resonance
Phosphoric acid
Solvents
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Summary:The analysis of small molecules within complex mixtures is a particularly difficult task when dealing with the study of metabolite mixtures or chemical reaction media. This issue has fostered in recent years an active search for effective and practical solutions. In this context, the ViscY NMR approach has been recently proposed. ViscY collectively designates the NMR experiments that take advantage of spin diffusion in highly viscous solvents or solvent blends for the individualization of the NMR spectra of small molecule mixture components. Two viscous media were prepared from ortho -phosphoric acid (85%) solution by dilution with either D 2 O or DMSO- d 6 , thus providing solvent blends with slightly different polarities in which all liquid-state NMR experiments can be carried out easily. Two mixtures, one of four structurally close dipeptides and one of four low-polarity phosphorus-containing compounds, were used for the method assessment, using ViscY experiments such as homonuclear selective 1D and 2D 1 H NOESY experiments, heteronuclear 2D 1 H– 15 N/ 1 H– 31 P HSQC-NOESY and 1 H– 13 C/ 1 H– 15 N/ 1 H– 31 P NOAH experiments.
ISSN:0003-2654
1364-5528
DOI:10.1039/d1an00899d