Abstract
In a typical bottom-up proteomics workflow, proteins are enzymatically cleaved, and the resulting peptides are analyzed by HPLC with electrospray ionization (ESI) tandem mass spectrometry. This approach is practical and widely applied. It has, however, limitations mostly related to less efficient or even inefficient ionization of some peptides in ESI sources. Gas-phase ionization methods like atmospheric-pressure chemical ionization (APCI) or atmospheric-pressure photoionization (APPI) offer alternative ways of detecting various analytes. This work is a systematic study of the ionization efficiencies of peptides in ESI, APCI, and APPI and the applicability of the mentioned ionizations in proteomics. A set of peptide standards and bovine serum albumin digests were examined using a high-resolution mass spectrometer coupled to an ultra HPLC system. Since the ionization efficiency in APCI and APPI depends strongly on experimental conditions, the ion source settings and mobile phase compositions were optimized for each ionization technique. As expected, tryptic peptides were best detected using ESI. The numbers of chymotrypsin peptides successfully detected by ESI, APPI, and APCI were comparable. In the case of Glu-C digest, APPI detected the highest number of peptides. The results suggest that gas-phase ionization techniques, particularly APPI, are an interesting alternative for detecting peptides and delivering complementary data in proteomics.
Highlights
The first peptide sequence analysis utilizing mass spectrometry (MS) was accomplished in 1959 by Klaus Biemann [1], who described an innovative method based on the reduction of small peptides to polyamino alcohols with characteristic electron ionization (EI) spectra
The standards used in this work were bovine serum albumin (BSA) tryptic peptides and their analogs having C-terminal amino acid substituted by phenylalanine or glutamic acid
This study aimed to investigate the usefulness of gas-phase ionizations, namely atmospheric-pressure chemical ionization (APCI) and atmospheric-pressure photoionization (APPI), for peptide analysis in mass spectrometry-based proteomics
Summary
The first peptide sequence analysis utilizing mass spectrometry (MS) was accomplished in 1959 by Klaus Biemann [1], who described an innovative method based on the reduction of small peptides to polyamino alcohols with characteristic electron ionization (EI) spectra. This approach, presented several drawbacks for peptide detection. Thermospray ionization (TSI) was designed for coupling MS to HPLC It produced mass spectra with abundant protonated molecules and molecular adducts without significant fragmentation. SALDI is carried out on various surfaces, including porous silicon [15] or inorganic nanomaterials [16]
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