4.7 Article

Detection, Evaluation and Minimization of Nonenzymatic Deamidation in Proteomic Sample Preparation

Journal

MOLECULAR & CELLULAR PROTEOMICS
Volume 10, Issue 10, Pages -

Publisher

AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
DOI: 10.1074/mcp.O111.009381

Keywords

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Funding

  1. Ministry of Education [ARC: T206B3211]
  2. Agency for Science, Technology and Research of Singapore [BMRC: 08/1/22/19/575]

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Identification of deamidated sites in proteins is commonly used for assignment of N-glycosylation sites. It is also important for assessing the role of deamidation in vivo. However, nonenzymatic deamidation occurs easily in peptides under conditions commonly used in treatment with trypsin and PNGase F. The impact on proteomic sample preparation has not yet been evaluated systematically. In addition, the C-13 peaks of amidated peptides can be misassigned as monoisotopic peaks of the corresponding deamidated ones in database searches. The 19.34 mDa mass difference between them is proposed as a means for eliminating the resulting false positive identifications in large-scale proteomic analysis. We evaluated five groups of proteomic data, obtained mainly through an electrostatic repulsion-hydrophilic interaction chromatography (ERLIC)-reverse phase (RP) chromatography sequence, and ascertained that nonenzymatic asparagine deamidation occurred to some extent on 4-9% of the peptides, resulting in the false positive identification of many N-glycosylation sites. A comprehensive investigation indicated that the chief causative factors were the mildly alkaline pH and prolonged incubations at 37 degrees C during proteomic sample preparation. An improved protocol is proposed featuring tryptic digestion at pH 6 and deglycosylation at pH 5, resulting in a significant decrease in nonenzymatic deamidation while conserving adequate digestion efficiency. The number of identified deamidation sites was improved significantly by increasing the sample loading amount in liquid chromatography-tandem MS. This permitted the identification of a significant number of glutamine deamidation sites, which featured sequence motifs largely different from those for asparagine deamidation: -Q-V-, -Q-L- and -Q-G- and, to a lesser extent, -Q-A- and -Q-E-. Molecular & Cellular Proteomics 10: 10.1074/mcp.O111.009381, 1-11, 2011.

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