Large-Scale Quantitative
Assessment of Different In-Solution
Protein Digestion Protocols Reveals Superior Cleavage Efficiency of
Tandem Lys-C/Trypsin Proteolysis over Trypsin Digestion
posted on 2012-11-02, 00:00authored byTimo Glatter, Christina Ludwig, Erik Ahrné, Ruedi Aebersold, Albert
J. R. Heck, Alexander Schmidt
The complete and specific proteolytic cleavage of protein
samples
into peptides is crucial for the success of every shotgun LC–MS/MS
experiment. In particular, popular peptide-based label-free and targeted
mass spectrometry approaches rely on efficient generation of fully
cleaved peptides to ensure accurate and sensitive protein quantification.
In contrast to previous studies, we globally and quantitatively assessed
the efficiency of different digestion strategies using a yeast cell
lysate, label-free quantification, and statistical analysis. Digestion
conditions include double tryptic, surfactant-assisted, and tandem-combinatorial
Lys-C/trypsin digestion. In comparison to tryptic digests, Lys-C/trypsin
digests were found most efficient to yield fully cleaved peptides
while reducing the abundance of miscleaved peptides. Subsequent sequence
context analysis revealed improved digestion performances of Lys-C/trypsin
for miscleaved sequence stretches flanked by charged basic and particulary
acidic residues. Furthermore, targeted MS analysis demonstrated a
more comprehensive protein cleavage only after Lys-C/trypsin digestion,
resulting in a more accurrate absolute protein quantification and
extending the number of peptides suitable for SRM assay development.
Therefore, we conclude that a serial Lys-C/trypsin digestion is highly
attractive for most applications in quantitative MS-based proteomics
building on in-solution digestion schemes.