| Matrix Effects on the Chiral Recognition Determined by the Relative Peak Intensity of Diastereomeric Host-Guest Complex Ions Using the FAB Mass Spectrometry/Enantiomer Labeled Guest Method |
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*a) Technochemistry Department, Osaka Municipal Technical Research Institute (1-6-50 Morinomiya, Joto-ku, Osaka 536-8553, Japan) |
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| The FAB mass spectrometry (MS)/enantiomer labeled (EL) guest method is one of the useful technique to easily evaluate chiral discrimination ability of a chiral host (H) toward chiral guests (GR+, GS-dn+). In this paper, the matrix dependency of the relative peak intensity (IRIS) of the diastereomeric host-guest complex ions [(H+GR)+ and (H+GS-dn)+] was investigated (host, MeFruNys; guest, Phe-O-iPr+). The IRIS values of spectra measured using NBA, NPOE, and DTDE matrices agreed almost with the ratio of concentrations of the complex ions calculated from the association constants (KR and KS) in chloroform at 298 K. While, the IRIS values of spectra using glycerol matrix reached almost unity. It was assumed that the IRIS values depend upon the matrices used since the difference of solvation ability of the matrices affects the actual concentration of the guest concerning in the complexation. And then, it was recommended that NBA is the best matrix for chiral recognition mass spectrometry studies. | ||
| Key words: FAB mass spectrometry, Chiral recognition, Deuterium labeling, Matrix, Solvent effect, Host-guest complex | ||
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