posted on 2022-04-07, 19:36authored byMichelle T. Berger, Daniel Hemmler, Philippe Diederich, Michael Rychlik, James W. Marshall, Philippe Schmitt-Kopplin
Identification
of chemically modified peptides in mass spectrometry
(MS)-based glycation studies is a crucial yet challenging task. There
is a need to establish a mode for matching tandem mass spectrometry
(MS/MS) data, allowing for both known and unknown peptide glycation
modifications. We present an open search approach that uses classic
and modified peptide fragment ions. The latter are shifted by the
mass delta of the modification. Both provide key structural information
that can be used to assess the peptide core structure of the glycation
product. We also leverage redundant neutral losses from the modification
side chain, introducing a third ion class for matching referred to
as characteristic fragment ions. We demonstrate that peptide glycation
product MS/MS spectra contain multidimensional information and that
most often, more than half of the spectral information is ignored
if no attempt is made to use a multi-step matching algorithm. Compared
to regular and/or modified peptide ion matching, our triple-ion strategy
significantly increased the median interpretable fraction of the glycation
product MS/MS spectra. For reference, we apply our approach for Amadori
product characterization and identify all established diagnostic ions
automatically. We further show how this method effectively applies
the open search concept and allows for optimized elucidation of unknown
structures by presenting two hitherto undescribed peptide glycation
modifications with a delta mass of 102.0311 and 268.1768 Da. We characterize
their fragmentation signature by integration with isotopically labeled
glycation products, which provides high validity for non-targeted
structure identification.