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  • Fluorescence-based peptide labeling and fractionation strategies for analysis of cysteine-containing peptides.

Fluorescence-based peptide labeling and fractionation strategies for analysis of cysteine-containing peptides.

Analytical chemistry (2005-07-15)
Adrienne Clements, Murray V Johnston, Barbara S Larsen, Charles N McEwen
ABSTRACT

This study demonstrates that 1,5-I-AEDANS (5-({2-[(iodoacetyl)amino]ethyl}amino)naphthalene-1-sulfonic acid) can be used as a versatile fluorescence-based peptide quantification tool and provides readily interpretable tandem mass spectra for de novo peptide sequencing. Two AEDANS-cysteinyl-peptide fractionation strategies were evaluated. One AEDANS-cysteinyl-peptide fractionation strategy employs immobilized metal affinity chromatography (IMAC) to recover AEDANS-labeled peptides and reduce the complexity of peptide mixtures. In an alternate solid-phase approach, 1,5-I-AEDANS was coupled to an o-nitrobenzyl-based photocleavable resin to produce a resin that can label and isolate thiols and cysteine-containing peptides with a modified-AEDANS label (mAEDANS: 5-((4-amino-4-oxobutanoyl){2-[(iodoacetyl)amino]ethyl}amino)naphthalene-1-sulfonic acid). This fractionation protocol enriches cysteine-containing peptides more specifically than the IMAC strategy. Using micro-LC-ESI-MS with an on-line fluorescence detector and a Q-TOF mass spectrometer, we generated fluorescence-based elution profiles and corresponding positive ion mass spectra of AEDANS-labeled peptides. This study demonstrates that AEDANS-peptides produce positive ion ESI-MS mass spectra with detection limits comparable to those of the unlabeled peptide. Collision-induced dissociation (CID) of fluorescent AEDANS-peptides revealed readily interpretable product ion spectra with the label intact. Similar to the AEDANS-labeled peptide, an mAEDANS-labeled thiol is fluorescent and CID of a mAEDANS-labeled peptide also reveals an interpretable product ion spectrum with the label intact.