Abstract
Orbitrap mass spectrometry in full scan mode enables simultaneous detection of hundreds of metabolites and their isotope-labeled forms. Yet sensitivity remains limiting for many metabolites, including low concentration species, poor ionizers, and low fractional abundance isotope-labeled forms in isotope tracing studies. Here we explore selected ion monitoring (SIM) as a means of sensitivity enhancement. The analytes of interest are enriched in the orbitrap analyzer by using the quadrupole as a mass filter to select particular ions. In tissue extracts, SIM significantly enhances the detection of ions of low intensity as indicated by improved signal-to-noise (S/N) ratios and measurement precision. In addition, SIM improves the accuracy of isotope-ratio measurements. SIM, however, must be deployed with care, as excessive accumulation in the orbitrap of similar m/z ions can lead, via space charge effects, to decreased performance (signal loss, mass shift, ion coalescence). Ion accumulation can be controlled by adjusting settings including injection time and target ion quantity. Overall, we suggest using full scan to ensure broad metabolic coverage, in tandem with SIM for accurate quantitation of targeted low-intensity ions, and provide methods deploying this approach to enhance metabolome coverage.
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