The method of sequenator analysis described by Edman and Begg (Edman, P., and Begg, G. (1967), Eur. J . Biochem. 1, 80) has been modified and applied to proteins and protein fragments. Significant modifications include the replacement of Quadrol by a volatile buffer (dimethylbenzylamine), the introduction of thiols to stabilize the reaction products, and the identification of the reaction products as silylated phenylthiohydantoins by automated gas-liquid chromatography. With these and other modifications, 30-50 T he sequential degradation of peptides by the method of Edman (1956) is an important procedure for the determination of amino acid sequences of proteins. The method combines the specificity of end-group analysis with the advantages of a cyclic stepwise process and normally yields 7-15 unambiguous degradations. In 1967, Edman and Begg automated the process by designing an instrument called the "sequenator" and demonstrated its successful application to the identification of 60 amino-terminal residues of apomyoglobin. Since then, other sequenators have been constructed, built on the principles of Edman and Begg. According to published accounts, these instruments are capable of Smithies et a/., Titani et al., 1972a).The capability of the sequenator to determine long amino acid sequences has altered the general strategy of sequence analysis. Instead of fragmenting the protein into a large number of short peptides whose sequences can be determined by manual Edman degradations and by digestion with carboxypeptidases, the protein is cleaved into a small number of large fragments, usually by chemical procedures (e.g., cyanogen bromide, hydroxylamine), and the separated fragments are directly subjected to automated sequence analysis. Only those segments which cannot be reached by the sequenator are subsequently analyzed by the classical procedures.Sequenator analysis has also been effective for screening proteins for homology, simply by applying the sequential analysis to the amino-terminal region of the protein or to other regions adjacent to existing or newly created a-amino groups. Such initiation points for consecutive degradations can be established by chemical reactions or by limited enzymatic proteolysis.Because of its sensitivity and the small amount of protein required for but a few turns, sequenator analysis is a rapid and amino acid residues can be identified and recovered with a repetitive yield of approximately 96 %. This modified method has been tested on thermolysin and its cyanogen bromide fragments and found to be reliable in determining amino acid sequences. It has also been applied to porcine trypsin and found to be of use in determining purity, allotypic variants, and internal peptide-bond cleavage. In addition, the chemical nature of protein subunits can be identified by this method.accurate test for protein purity and, inter alia, for determining the number of polypeptide chains in a pure oligomeric protein. The method also has proved useful in following the changes in covalent structure att...
