Analysis of phytosterol by MALDI-TOF mass spectrometry

Abstract

beta-Sitosterol is the most abundant phytosterol lipid in plants. This study demonstrates a method for analyzing beta-sitosterol using a laboratory-built MALDI-TOF mass spectrometer. The matrix compound, solvent system, laser intensity, alkali ion, and analyte concentration for sample preparation were optimized to acquire reproducible and informative mass spectra of the analyte. The best MALDI spectrum of beta-sitosterol was obtained by mixing the analyte solution with an equal volume of 2,4-DHB/iPrOH-H2O ( 9 : 1) solution (60 mM) at 13.5 mJ cm(-2) laser intensity. Under the optimized experimental conditions, beta-sitosterol generated intense peaks consisting of the initial lipids and their oxidation products. The former included mass peaks at m/z 396.6, 397.6, 436.9, and 452.6, which corresponded to the [M - H2O](+), [M + H - H2O](+), [M + Na](+), and [M + K](+) ions of beta-sitosterol, respectively. The latter included mass peaks at m/z 412.7, 413.7, and 431.9, which corresponded to the [M' - H2O](+), [M' + H - H2O](+), and [M' + H](+) ions of mono-oxidized beta-sitosterol, respectively. A quantitative analysis of beta-sitosterol was also conducted using a matrix peak. Calibration curves obtained for beta(-)sitosterol show a good linear range of three orders of magnitude with a regression coefficient square of 0.992. The linear ranges were between 12.1 and 1207.5 mu M. The detection limit was 10 nM. These results demonstrate the potential application of MALDI mass spectrometry for analyzing phytosterols.