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1. Evolution of a mass spectrometry-grade protease with PTM-directed specificity.

Author

Tran DT, Cavett VJ, Dang VQ, Torres HL, and Paegel BM

Subjects

Arginine chemistry, Citrulline chemistry, Evolution, Molecular, Humans, Mass Spectrometry, Mutation, Oligonucleotides chemistry, Peptides chemistry, Protein-Arginine Deiminase Type 4, Protein-Arginine Deiminases chemistry, Proteomics, Rhodamines chemistry, Trypsinogen chemistry, Peptide Hydrolases chemistry, Protein Processing, Post-Translational, Proteins chemistry, Trypsin chemistry

Abstract

Mapping posttranslational modifications (PTMs), which diversely modulate biological functions, represents a significant analytical challenge. The centerpiece technology for PTM site identification, mass spectrometry (MS), requires proteolytic cleavage in the vicinity of a PTM to yield peptides for sequencing. This requirement catalyzed our efforts to evolve MS-grade mutant PTM-directed proteases. Citrulline, a PTM implicated in epigenetic and immunological function, made an ideal first target, because citrullination eliminates arginyl tryptic sites. Bead-displayed trypsin mutant genes were translated in droplets, the mutant proteases were challenged to cleave bead-bound fluorogenic probes of citrulline-dependent proteolysis, and the resultant beads (1.3 million) were screened. The most promising mutant efficiently catalyzed citrulline-dependent peptide bond cleavage (k cat /K M = 6.9 × 10 5 M -1 ⋅s -1 ). The resulting C-terminally citrullinated peptides generated characteristic isotopic patterns in MALDI-TOF MS, and both a fragmentation product y 1 ion corresponding to citrulline (176.1030 m/z) and diagnostic peak pairs in the extracted ion chromatograms of LC-MS/MS analysis. Using these signatures, we identified citrullination sites in protein arginine deiminase 4 (12 sites) and in fibrinogen (25 sites, two previously unknown). The unique mass spectral features of PTM-dependent proteolytic digest products promise a generalized PTM site-mapping strategy based on a toolbox of such mutant proteases, which are now accessible by laboratory evolution., Competing Interests: The authors declare no conflict of interest.

Published

2016