Abstract
A rapid and sensitive method for assignment of disulfide bonds using fast atom bombardment mass spectrometry is described for hen egg white lysozyme and bovine ribonuclease A. The protein is initially digested to a mixture of peptides using chemical and enzymatic methods under conditions which minimize disulfide bond reduction and exchange. The digested sample is analyzed directly by fast atom bombardment mass spectrometry before and after chemical reduction of cystine residues. An important feature of the method is that it is not necessary to completely resolve the peptides in the digest chromatographically prior to analysis. The disulfide-containing peptides are also characterized directly by prolonged exposure of the sample to the high energy xenon atom beam which results in the reduction of cystine residues. Intra- as well as interchain disulfide bond assignments are made on the basis of the mass difference between the molecular ions (MH+) of the oxidized and reduced peptides. Confirmation of the mass assignments may be obtained from the mass spectra of the digests after one cycle of manual Edman degradation. Although the quantity of protein required to unambiguously assign all of the disulfide linkages will depend on the ease with which the appropriate peptide fragments can be formed, results from these studies indicate that approximately 1 nmol of protein is usually sufficient.
Highlights
From the mass spectra of the digests afterone cycle of manual Edman degradation
Hen egg lysozyme has a molecular weight of 14,600 mu and contains a total of 129 amino acids, 8 of which are cysteines that arenormally joined via disulfide bonds.In order taossign disulfide linkages in this protein, specific cleavage reactions are used tdoegrade the protein into peptides containsiinnggle disulfide bonds.The molecular weightsof these fragments are analyzed by FABMS before and afterreduction
We identified molecular ions for 18 of the anticipated peptide fragments expected from cyanogen bromide (CNBr) and tryptic cleavage of lysozyme
Summary
Recombinant DNA methods have generated deduced protein sequences at a rate much faster than one caannalyze the proteins for post-translational modifications using conventional methodology. One common post-translational modification which proteins undergo is disulfide bond formation. Wehave used FABMStodeterminethemass of various peptides generated from specific and nonspecific cleavages of two model proteins, hen egg-white lysozyme and bovine ribonuclease A. Thisobservation, along with peptidemolecular weights, has made it possible to assign all thedisulfide bonds intwo model proteins, lysozyme and ribonuclease. Hen egg lysozyme has a molecular weight of 14,600 mu and contains a total of 129 amino acids, 8 of which are cysteines that arenormally joined via disulfide bonds.In order taossign disulfide linkages in this protein, specific cleavage reactions are used tdoegrade the protein into peptides containsiinnggle disulfide bonds.The molecular weightsof these fragments are analyzed by FABMS before and afterreduction. The protein was digested withtrypsin (Fig. 1).FABMS analysisof aliquots of the tryptic digest indicated the presence of 18 peptides having the molecular ions shown in Table I and Table 11. The numbers in the parentheses show the monoisotopic mass of MH+ rounded to thenearest decimal Doint
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