posted on 2016-07-11, 00:00authored byAndrew
R. Korte, Sylwia A. Stopka, Nicholas Morris, Trust Razunguzwa, Akos Vertes
The
unique challenges presented by metabolomics have driven the
development of new mass spectrometry (MS)-based techniques for small
molecule analysis. We have previously demonstrated silicon nanopost
arrays (NAPA) to be an effective substrate for laser desorption ionization
(LDI) of small molecules for MS. However, the utility of NAPA-LDI-MS
for a wide range of metabolite classes has not been investigated.
Here we apply NAPA-LDI-MS to the large-scale acquisition of high-resolution
mass spectra and tandem mass spectra from a collection of metabolite
standards covering a range of compound classes including amino acids,
nucleotides, carbohydrates, xenobiotics, lipids, and other classes.
In untargeted analysis of metabolite standard mixtures, detection
was achieved for 374 compounds and useful MS/MS spectra were obtained
for 287 compounds, without individual optimization of ionization or
fragmentation conditions. Metabolite detection was evaluated in the
context of 31 metabolic pathways, and NAPA-LDI-MS was found to provide
detection for 63% of investigated pathway metabolites. Individual,
targeted analysis of the 20 common amino acids provided detection
of 100% of the investigated compounds, demonstrating that improved
coverage is possible through optimization and targeting of individual
analytes or analyte classes. In direct analysis of aqueous and organic
extracts from human serum samples, spectral features were assigned
to a total of 108 small metabolites and lipids. Glucose and amino
acids were quantitated within their physiological concentration ranges.
The broad coverage demonstrated by this large-scale screening experiment
opens the door for use of NAPA-LDI-MS in numerous metabolite analysis
applications.