posted on 2014-06-17, 00:00authored byMohammad Pirmoradian, Bo Zhang, Konstantin Chingin, Juan Astorga-Wells, Roman A. Zubarev
Recently, we introduced an online
multijunction capillary isoelectric
focusing (OMJ-CIEF) fractionator to fractionate proteins and peptides
in electrospray-friendly solution. In this follow-up study, the original
configuration of the fractionator was modified to improve the resolving
power and reproducibility of separation. The major improvements include
stabilization of the electrical current through the device using a
voltage divider and stepwise elution of peptide zones in conjunction
with the repeated refocusing of remaining peptides. Also, a novel
algorithm was developed to calculate more accurately the pI values
of peptides identified from experimental data. The standard deviation
of calculated pI values for unmodified peptides from the theoretically
predicted pI values was on average 0.21 pH units, which is more accurate
than in standard-resolution gel-based methods. In order to characterize
the analytical performance of the improved device, it was applied
for the pI fractionation of yeast proteome digest into 18 fractions,
with the collected fractions being analyzed by reverse-phase liquid
chromatography coupled with tandem mass spectrometry. Approximately
37% of 20047 identified peptides were detected in only one fraction
and 27% - in two fractions. On average, every peptide was found in
2.4 fractions. These results strongly indicate the suitability of
the improved device as a first dimension of separation in multidimensional
shotgun proteomics analysis, with a potential for fully automated
workflow.