Improved NMR Detection of Phospho-Metabolites in a Complex Mixture
datasetposted on 2021-03-12, 23:13 authored by Neil Cox, Pierre Millard, Cyril Charlier, Guy Lippens
Phosphorylated metabolites are omnipresent in cells, but their analytical characterization faces several technical hurdles. Here, we detail an improved NMR workflow aimed at assigning the high-resolution subspectrum of the phospho-metabolites in a complex mixture. Combining a pure absorption J-resolved spectrum (Pell, A. J.; J. Magn. Reson. 2007, 189 (2), 293−299) with alternate on- and off-switching of the 31P coupling interaction during the t1 evolution with a pure in-phase (PIP) HSQMBC experiment (Castañar, L.; Angew. Chem., Int. Ed. 2014, 53 (32), 8379−8382) without or with total correlation spectroscopy (TOCSY) transfer during the insensitive nuclei enhancement by polarization transfer (INEPT) gives access to selective identification of the individual subspectra of the phosphorylated metabolites. Returning to the initial J-res spectra, we can extract with optimal resolution the full trace for the individual phospho-metabolites, which can then be transposed on the high-resolution quantitative one dimensional spectrum.
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TOCSYcharacterizationspectrumPellhurdleNMR Detectionnuclei enhancementPhospho-Metaboliteres spectra31 Pabsorption JINEPTaccessidentificationMagnin-phasePIPNMR workflowphosphorylated metabolitesmixturetracesubspectraComplex Mixture Phosphorylated meta...off-switchingphospho-metabolitesubspectrumHSQMBC experimentpolarization transferinteractioncorrelation spectroscopyIntEdCastanResonChemAngewt 1 evolution