Abstract
Trypsin dominates bottom-up proteomics, but there are reasons to consider alternative enzymes. Improving sequence coverage, exposing proteomic "dark matter," and clustering post-translational modifications in different ways and with higher-order drive the pursuit of reagents complementary to trypsin. Additionally, enzymes that are easy to use and generate larger peptides that capitalize upon newer fragmentation technologies should have a place in proteomics. We expressed and characterized recombinant neprosin, a novel prolyl endoprotease of the DUF239 family, which preferentially cleaves C-terminal to proline residues under highly acidic conditions. Cleavage also occurs C-terminal to alanine with some frequency, but with an intriguingly high "skipping rate." Digestion proceeds to a stable end point, resulting in an average peptide mass of 2521 units and a higher dependence upon electron-transfer dissociation for peptide-spectrum matches. In contrast to most proline-cleaving enzymes, neprosin effectively degrades proteins of any size. For 1251 HeLa cell proteins identified in common using trypsin, Lys-C, and neprosin, almost 50% of the neprosin sequence contribution is unique. The high average peptide mass coupled with cleavage at residues not usually modified provide new opportunities for profiling clusters of post-translational modifications. We show that neprosin is a useful reagent for reading epigenetic marks on histones. It generates peptide 1-38 of histone H3 and peptide 1-32 of histone H4 in a single digest, permitting the analysis of co-occurring post-translational modifications in these important N-terminal tails.
Highlights
The most widely used “bottom-up” proteomics approach requires the proteolytic digestion of proteins into peptides
Improvements in proteome representation and the characterization of post-translational modifications (PTMs)1 and proteoforms are possible with proteolytic enzymes such as LysC, ArgC, AspN, and GluC [3,4,5]
We show that neprosin is a legitimate low-molecular-weight prolyl endoproteases (PEPs), active at low concentrations and low pH
Summary
The most widely used “bottom-up” proteomics approach requires the proteolytic digestion of proteins into peptides. For the comparative proteomic analysis of HeLa cells digested with LysC, trypsin, or recombinant neprosin, samples were measured using an EASY-nLC 1000 nano-LC coupled to an Orbitrap Fusion Lumos Tribrid mass spectrometer (Thermo Fisher Scientific) equipped with an EASY-spray source. For a minimally biased cleavage site analysis in the proteomics experiments, the enzyme was set to “none,” and a modified database file was used, in which initiator methionine residues and signal peptides [35] were removed, to exclude false-positive N-terminal cleavage sites.
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