Probing the reactivity of S-S bridges to acrylamide in some proteins under high pH conditions by matrix-assisted laser desorption/ ionisation

Abstract

There is compelling evidence to suggest that cysteine-acrylamide adduct formation is a modification experienced by proteins separated by two-dimensional (2-D) gel electrophoresis. Whether the -SH group involved in such complexation is offered by a free or initially disulphide-linked cysteine residue remains an open question. To address this question a number of proteins containing free and/or disulphide-linked cysteine (Cys) residues have been incubated with acrylamide monomer and examined by delayed extraction matrix-assisted laser desorption/ionisation time-of-flight (MALDI-TOF). These data provide strong evidence to suggest that the presence of free Cys in the investigated proteins is not the most important requirement for the observation of Cys-acrylamide adducts. Unambiguous confirmation of this deduction was obtained by analysing the tryptic digests of the same proteins by reflectron MALDI-TOF. The assignment of the adduction sites was facilitated by the mass accuracy attained for the monitored tryptic fragments and their agreement with the corresponding predicted masses reported in the Swiss-Prot database. The same data suggest that at high pH the cysteine pairing is flexible enough to allow initially S–S linked residues to complex with acrylamide. It is also plausible that the -NH₂ terminal blockage so often encountered in proteins electroblotted from 2-D maps could originate from carbamylation, and might not have anything to do with alkylation by free, unreacted acrylamide in polyacrylamide gels. Copyright © 1999 John Wiley & Sons, Ltd.