Quantitative assessment of methyl-esterification and other side reactions in a standard propionylation protocol for detection of histone modifications

Histone modifications play an important role in regulating chromatin stability and gene expression, but to date, investigating them remains challenging. In order to obtain peptides suitable for MS‐based analysis, chemical derivatization of N‐terminus and lysine residues by propionic anhydride is com...

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Bibliographic Details
Published in:Proteomics (Weinheim) 2016-07, Vol.16 (14), p.2059-2063
Main Authors: Paternoster, Veerle, Edhager, Anders Valdemar, Sibbersen, Christian, Nielsen, Anders Lade, Børglum, Anders Dupont, Christensen, Jane Hvarregaard, Palmfeldt, Johan
Format: Article
Language:English
Subjects:
2-Propanol - chemistry
Acetonitrile
Acetonitriles - chemistry
Amides - chemistry
Amino Acid Sequence
Amino Acids - chemistry
Amino Acids - metabolism
Anhydrides
Anhydrides - chemistry
Anhydrides - metabolism
Biomedicine
Cation exchange
Cation exchanging
Chromatin
Esterification
Gene expression
Histone
Histone Code
Histones - analysis
Histones - chemistry
Histones - metabolism
Humans
Lysine
Mass spectrometry
Methanol
Methanol - chemistry
Methylation
Peptide Fragments - analysis
Peptide Mapping
Peptides
Posttranslational modifications
Propionates - chemistry
Propionates - metabolism
Propionylation
Protein Processing, Post-Translational
Proteomics
Proteomics - methods
Side reactions
Solvents - chemistry
Solvolysis
Tandem Mass Spectrometry - standards
Trypsin - chemistry
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Summary:Histone modifications play an important role in regulating chromatin stability and gene expression, but to date, investigating them remains challenging. In order to obtain peptides suitable for MS‐based analysis, chemical derivatization of N‐terminus and lysine residues by propionic anhydride is commonly performed. Several side reactions (methyl‐esterification, amidation, solvolysis, overpropionylation, and missed propionylation) during propionylation protocols have been described, yet their relative abundances remain vague. Because methyl‐esterification could interfere with correct interpretation of the modification pattern, it is essential to take measures to avoid it. Here we present in‐depth quantitative analyses of methyl‐esterification and the other side reactions in a standard propionylation protocol containing methanol, and when replacing methanol with isopropanol or acetonitrile. We show that the use of alternative solvents can eliminate methyl‐esterification and that even though other side reactions are not prevented, their contribution can be kept relatively small. We also show that replacing methanol can be of importance also in other proteomics methods, such as mixed cation exchange, using methanol under acidic conditions.
ISSN:1615-9853
1615-9861
DOI:10.1002/pmic.201500425