Enhanced Separation and
Characterization of Deamidated
Peptides with RP-ERLIC-Based Multidimensional Chromatography Coupled
with Tandem Mass Spectrometry
posted on 2012-03-02, 00:00authored byPiliang Hao, Jingru Qian, Bamaprasad Dutta, Esther
Sok Hwee Cheow, Kae Hwan Sim, Wei Meng, Sunil S. Adav, Andrew Alpert, Siu Kwan Sze
Deamidation of asparaginyl residues in proteins produces
a mixture
of asparaginyl, n-aspartyl, and isoaspartyl residues,
which affects the proteins’ structure, function, and stability.
Thus, it is important to identify and quantify the products to evaluate
the effects in biological systems. It is still a challenging task
to distinguish between the n-Asp and isoAsp deamidation
products in a proteome-wide analysis because of their similar physicochemical
properties. The quantification of the isomeric deamidated peptides
is also rather difficult because of their coelution/poor separation
in reverse-phase liquid chromatography (RPLC). We here propose a RP-ERLIC–MS/MS
approach for separating and quantifying on a proteome-wide scale the
three products related to deamidation of the same peptide. The key
to the method is the use of RPLC in the first dimensional separation
and ERLIC (electrostatic repulsion–hydrophilic interaction
chromatography) in the second, with direct online coupling to tandem
MS. The coelution of the three deamidation-related peptides in RPLC
is then an asset, as they are collected in the same fraction. They
are then separated and identified in the second dimension with ERLIC,
which separates peptides on the basis of both pI and
GRAVY values. The coelution of the three products in RPLC and their
efficient separation in ERLIC were validated using synthetic peptides,
and the performance of ERLIC–MS/MS was tested using peptide
mixtures from two proteins. Applying this sequence to rat liver tissue,
we identified 302 unique N-deamidated peptides, of
which 20 were identified via all three deamidation-related products
and 70 of which were identified via two of them.