1 research outputs found
Deconvolution of Mixture Spectra and Increased Throughput of Peptide Identification by Utilization of Intensified Complementary Ions Formed in Tandem Mass Spectrometry
A cornerstone of mass spectrometry
based proteomics is to relate
with high statistical significance experimentally obtained tandem
mass spectrometry (MS/MS) data to peptide sequences from a protein
database. Most sequence specific fragment ions in MS/MS spectra are
represented by a subset of complementary ion pairs. Here, we investigated
the reliabilities of complementary ion pairs formed in CAD and CAD/ETD
MS/MS and developed a reliability-based approach of intensification
of ion signals of complementary pairs prior to database searching.
In a large-scale proteomics experiment using high-resolution orbitrap
mass spectrometry, an increase in the number of peptide identifications
was obtained relative to the original CAD MS/MS spectra when intensified
golden complementary (+18.6%) and CAD complementary pairs (+17.2%)
were submitted to the Mascot search engine. This also exceeded the
results obtained by deisotoping/deconvolution of CAD MS/MS spectra.
A novel approach for extracting sequence-specific fragment ions of
co-isolated peptides was developed based on the complementarity rules.
This technique demonstrated an impressive gain of 42.4% more peptide
identifications as compared with the use of the initial data set