Patent ID: 7651859
Filing Date: 2010-01-26
Classification: G01N

Abstract:
1. A method for analyzing the C-terminal amino acid sequence of a peptide to be examined, which method comprises the following steps: a step of preparing a mixture containing a series of reaction products that are obtained from the peptide to be examined by releasing the C-terminal amino acids successively by chemical, a step of analyzing the differences in molecular weight between said series of reaction products and the original peptide by means of mass spectrometry to measure the decreases in molecular weight associated with the successive release of the C-terminal amino acids, and a step of identifying a series of the amino acids removed successively, based on a series of the measured decreases in molecular weight and arranging them from the C-terminus to obtain the information of the C-terminal amino acid sequence of the peptide, wherein said process for releasing the C-terminal amino acids successively, for the sample of the target peptide that has been subjected to separation by gel electrophoresis and is maintained in a state that it is bound on a polyacrylamide gel carrier, comprises the following steps: a step of removing the water solvent impregnated into the polyacrylamide gel carrier by dilution with use of a polar aprotic solvent having no solvency for the polyacrylamide gel substance and having affinity for water, to conduct a dehydration treatment for the gel carrier, a pretreatment step for the target peptide sample that is still bound on the polyacrylamide gel carrier after carrying out said step for dehydration treatment, in which pretreatment step applying N-acylation protection by the acyl group derived from the alkanoic acid constituting said alkanoic acid anhydride, to the N-terminal amino group of the target peptide with use of a solution of the alkanoic acid anhydride dissolved in a dipolar aprotic solvent that is capable of infiltrating into the polyacrylamide gel substance and keeping it in a swollen state is conducted by immersing, at a temperature selected in a range of 30° C. to 80° C., the polyacrylamide gel carrier in the solution of the alkanoic acid anhydride to allow the alkanoic acid anhydride to act on the target peptide sample that is kept in the bound state; and then removal of said solution is carried out by dilution with use of a polar aprotic solvent having no solvency for the polyacrylamide gel substance and having affinity for the alkanoic acid anhydride as well as the dipolar aprotic solvent, to conduct termination of the N-acylation reaction and removal of the reaction reagent therefor; a step of treatment for the target peptide sample bound on the polyacrylamide gel carrier, after the pretreatment step of N-acylation protection, comprising steps of: immersing, at a temperature selected in a range of 30° C. to 80° C., the gel carrier in a mixed solution of an alkanoic acid anhydride added with a small amount of a perfluoroalkanoic acid in relative ratio thereto dissolved in a dipolar aprotic solvent that is capable of infiltrating into the polyacrylamide gel substance and keeping it in a swollen state, to allow the alkanoic acid anhydride and the perfluoroalkanoic acid to act on the target peptide sample being kept in the bound state; thereby, successive release of the C-terminal amino acids results from the reaction process with use of the mixed solution in which the formation of a 5-oxazolone-ring structure represented by the following general formula (III): wherein R1 is a side chain of the C-terminal amino acid of the peptide and R2 is a side chain of the amino acid residue positioned just before the C-terminal amino acid, is followed by the cleavage of the 5-oxazolone-ring, and removing the mixed solution used in the reaction for successive release of C-terminal amino acids, by dilution with use of a polar aprotic solvent having no solvency for polyacrylamide the gel substance and having affinity for the perfluoroalkanoic acid and the alkanoic acid anhydride as well as the dipolar aprotic solvent, to conduct termination of the releasing reaction and removal of the reaction reagents therefor; and an additional step for hydrolysis treatment and then re-dehydration treatment, in which step the hydrolysis treatment for said mixture comprising a series of reaction products obtained by the reaction for successive release of C-terminal amino acids is conducted by immersing the polyacrylamide gel carrier in an aqueous solution dissolving a basic nitrogen-containing aromatic compound or a tertiary amine compound therein to allow a water molecule to act, in the presence of said basic nitrogen-containing organic compound, on said peptides of the reaction products being still bound on the polyacrylamide gel carrier, and then, the re-dehydration treatment for the gel carrier is performed by removing said aqueous solution infiltrated into the polyacrylamide gel carrier by dilution with use of a polar aprotic solvent having no solvency for the gel substance and having affinity for water; and wherein said step of measuring the decreases in molecular weight associated with the successive release of the C-terminal amino acids employs a technique which comprises: allowing trypsin to act on said mixture, after the re-dried up treatment, containing a series of the reaction products finished by hydrolysis treatment, in a buffer solution, to carry out the treatment for the enzymatic digestion specific to trypsin of said peptide chain which holds N-acylation protection as for the N-terminal amino group of the peptide chain as well as to the amino group on the side chain of the lysine residue that may be contained in the peptide chain, and thereby, conducting selective cleavage of the C-terminal side peptide bond of each arginine residue that is present in the peptide chain to complete peptide fragmentation, applying a desalting treatment to remove the buffer solution component, followed by recovering and drying the peptide fragments after the digestion treatment by trypsin, followed by drying, next to that, conducting, for the dried mixture containing said peptide fragments recovered after the digestion treatment by trypsin, molecular weight measurement for the cationic species of (M+H) with respect to the corresponding ion species, which are measured in said molecular weight measurement for the cationic species of (M+H) judging that the peaks of the peptide fragments each having an arginine residue at the C-terminus, which fragments are produced by said digestion treatment by trypsin, are peaks that give such intensities that the intensity in the molecular weight measurement for the cationic species of (M+H) based on a series of the peaks that gives a relatively larger intensity in the molecular weight measurement for the anionic species of (M−H)