Issue 6, 2013

Rapid mass spectrometric determination of disulfide connectivity in peptides and proteins

Abstract

Disulfide crosslinks are ubiquitous in natural peptides and proteins, providing rigidity to polypeptide scaffolds. The assignment of disulfide connectivity in multiple crosslinked systems is often difficult to achieve. Here, we show that rapid unambiguous characterisation of disulfide connectivity can be achieved through direct mass spectrometric CID fragmentation of the disulfide intact polypeptides. The method requires a direct mass spectrometric fragmentation of the native disulfide bonded polypeptides and subsequent analysis using a newly developed program, DisConnect. Technical difficulties involving direct fragmentation of proteins are surmounted by an initial proteolytic nick and subsequent determination of the structures of these proteolytic peptides through DisConnect. While the connectivity in proteolytic fragments containing one cystine is evident from the MS profile alone, those with multiple cystines are subjected to subsequent mass spectrometric fragmentation. The wide applicability of this method is illustrated using examples of peptide hormones, peptide toxins, proteins, and disulfide foldamers of a synthetic analogue of a marine peptide toxin. The method, coupled with DisConnect, provides an unambiguous, straightforward approach, especially useful for the rapid screening of the disulfide crosslink fidelity in recombinant proteins, determination of disulfide linkages in natural peptide toxins and characterization of folding intermediates encountered in oxidative folding pathways.

Graphical abstract: Rapid mass spectrometric determination of disulfide connectivity in peptides and proteins

Supplementary files

Additions and corrections

Article information

Article type
Paper
Submitted
20 Nov 2012
Accepted
07 Feb 2013
First published
08 Feb 2013

Mol. BioSyst., 2013,9, 1340-1350

Rapid mass spectrometric determination of disulfide connectivity in peptides and proteins

M. Bhattacharyya, K. Gupta, K. H. Gowd and P. Balaram, Mol. BioSyst., 2013, 9, 1340 DOI: 10.1039/C3MB25534D

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