introduction of fast atom bombardment (FAB) MS allowed the analysis of large,
charged molecules such as proteins and peptides to be achieved for the first time.
The further development of more sophisticated methods such as electrospray ionisa-
tion (ESI) and matrix-assisted laser desorption ionisation (MALDI) (see Chapter 9) has
led to the analysis of protein by mass spectrometry becoming routine. Although the
Edman degradation still has occasional applications in protein structure analysis,
mass spectrometry is now the method of choice for determining amino acid sequence
data. When peptides are fragmented by MS it is fortunate that cleavage occurs
predominantly at the peptide bond (although it must be noted that other fragmenta-
tions, such as internal cleavages, secondary fragmentations, etc. do occur, thus
complicating the mass spectrum). This means that the peptide fragments produced
each differ sequentially by the mass of one amino acid residue. The amino acid
sequence can thus be readily deduced. In particular, if side-chain modifications occur,
these can also be observed due to the corresponding increase in mass difference.
The use of mass spectrometry to obtain sequence data from proteins and peptides
is described more fully in Section 9.5. Tandem mass spectrometry (MS/MS or MS^2 )is
also increasingly being used to obtain sequence data. A digest of the protein (e.g. withTable 8.5Specific cleavage of polypeptide
Reagent Specificity
Enzymic cleavage
Chymotrypsin C-terminal side of hydrophobic amino acid residues, e.g. Phe, Try,
Tyr, Leu
Endoproteinase Arg-C C-terminal side of arginine
Endoproteinase Asp-N Peptide bonds N-terminal to aspartate or cysteine residues
Endoproteinase Glu-C C-terminal side of glutamate residues and some aspartate residues
Endoproteinase Lys-C C-terminal side of lysine
Thermolysin N-terminal side of hydrophobic amino acid residues excluding Trp
Trypsin C-terminal side of arginine and lysine residues but Arg-Pro and
Lys-Pro poorly cleaved
Chemical cleavage
BNPS skatole
g
N-Bromosuccinimide C-terminal side of tryptophan residues
o-Iodosobenzoate
Cyanogen bromide C-terminal side of methionine residues
Hydroxylamine Asparagine–glycine bonds
2-Nitro-5-thiocyanobenzoate N-terminal side of cysteine residues
332 Protein structure, purification, characterisation and function analysis