posted on 2021-03-02, 14:35authored byCarter Lantz, Muhammad A. Zenaidee, Benqian Wei, Zachary Hemminger, Rachel R. Ogorzalek Loo, Joseph A. Loo
Top-down mass spectrometry (TD-MS)
of peptides and proteins results
in product ions that can be correlated to polypeptide sequence. Fragments
can either be terminal fragments, which contain either the N- or the
C-terminus, or internal fragments that contain neither termini. Normally,
only terminal fragments are assigned due to the computational difficulties
of assigning internal fragments. Here we describe ClipsMS, an algorithm
that can assign both terminal and internal fragments generated by
top-down MS fragmentation. Further, ClipsMS can be used to locate
various modifications on the protein sequence. Using ClipsMS to assign
TD-MS generated product ions, we demonstrate that for apo-myoglobin,
the inclusion of internal fragments increases the sequence coverage
up to 78%. Interestingly, many internal fragments cover complementary
regions to the terminal fragments that enhance the information that
is extracted from a single top-down mass spectrum. Analysis of oxidized
apo-myoglobin using terminal and internal fragment matching by ClipsMS
confirmed the locations of oxidation sites on the two methionine residues.
Internal fragments can be beneficial for top-down protein fragmentation
analysis, and ClipsMS can be a valuable tool for assigning both terminal
and internal fragments present in a top-down mass spectrum. Data are
available via the MassIVE community resource with the identifiers
MSV000086788 and MSV000086789.