Abstract: An object of the present invention is to provide a novel method having high efficiency and versatility for a peptide thioester and peptide. The present invention provides a method for producing a peptide thioester, comprising the steps of: (1) providing a peptide thioester having a CGC triplet at the C-terminal; (2) causing a transfer between an SH group of the C-terminal cysteine and a carbonyl group of the glycine in the CGC triplet to obtain an R-X-CG-thioester; and (3) causing, in the R-X-CG-thioester, a transfer between the SH group of the cysteine and a carbonyl group of X, and a transfer between an amino group of the cysteine and a thiol group of the glycine to obtain a peptide thioester, and a method for producing a peptide using the peptide thioester produced by this method.

Abstract: The object of the present invention is to provide a method for manufacturing an amino acid polymer more simply and efficiently compared to conventional methods for manufacturing amino acid polymers. The present invention provides a method for manufacturing an amino acid polymer with thioacid amino acids. Specifically, the manufacturing method of the present invention comprises (A) a step of preparing first and second thioacid amino acids, (B) a step of subjecting said first and second thioacid amino acids to an oxidation reaction to obtain an amino acid polymer linked by peptide bonds. The manufacturing method of the present invention is characterized in that it partially uses thioacid amino acids that do not possess a protecting group.

Abstract: The object of the present invention is to provide a method for manufacturing an amino acid polymer more simply and efficiently compared to conventional methods for manufacturing amino acid polymers. The present invention provides a method for manufacturing an amino acid polymer with thioacid amino acids. Specifically, the manufacturing method of the present invention comprises (A) a step of preparing first and second thioacid amino acids, (B) a step of subjecting said first and second thioacid amino acids to an oxidation reaction to obtain an amino acid polymer linked by peptide bonds. The manufacturing method of the present invention is characterized in that it partially uses thioacid amino acids that do not possess a protecting group.

Abstract: An object of the invention is to provide a method of uniformly and efficiently producing a saccharide having a sulfate group and/or a phosphate group in the molecule, or a compound containing the saccharide. [Solution] The present invention provides a method of producing a saccharide having a sulfate group and/or a phosphate group. The method comprises (a) a step of preparing a “first saccharide having a non-protected sulfate group and/or a non-protected phosphate group” and a “second saccharide having a non-protected sulfate group and/or a non-protected phosphate group” and (b) a step of condensing the first saccharide and the second saccharide prepared in the step (a) with each other.

Abstract: An object of the invention is to provide a method of uniformly and efficiently producing a saccharide having a sulfate group and/or a phosphate group in the molecule, or a compound containing the saccharide. [Solution] The present invention provides a method of producing a saccharide having a sulfate group and/or a phosphate group. The method comprises (a) a step of preparing a “first saccharide having a non-protected sulfate group and/or a non-protected phosphate group” and a “second saccharide having a non-protected sulfate group and/or a non-protected phosphate group” and (b) a step of condensing the first saccharide and the second saccharide prepared in the step (a) with each other.

Abstract: The object of the present invention is to provide a method of efficiently manufacturing an optically active D- and/or L-form amino acid possessing a thiol group in the side chain by a simple method. The present invention provides a method of manufacturing an amino acid derivative possessing a thiol group in the side chain, characterized in manufacturing an intermediate composition comprising D- and L-forms of an amino acid derivative possessing a thiol group at the ?-position, reacting a hydrolase selective for D- or L-amino acids, and separating the hydrolyzed D- or L-amino acid derivative, as well as an intermediate thereof.

Abstract: When manufacturing a sugar chain compound having an activating group, there was a problem with the ammonium carbonate method that is the conventional technology that during the process of introducing an amino group at the reducing terminal of the sugar chain, the unit sugar located at the reducing terminal of the sugar chain is subjected to ring-opening, thus causing a mixture of ? and ? anomers to be produced.

Abstract: The object of the present invention is to provide a method of efficiently manufacturing an optically active D- and/or L-form amino acid possessing a thiol group in the side chain by a simple method. The present invention provides a method of manufacturing an amino acid derivative possessing a thiol group in the side chain, characterized in manufacturing an intermediate composition comprising D- and L-forms of an amino acid derivative possessing a thiol group at the ?-position, reacting a hydrolase selective for D- or L-amino acids, and separating the hydrolyzed D- or L-amino acid derivative, as well as an intermediate thereof.

Abstract: When manufacturing a sugar chain compound having an activating group, there was a problem with the ammonium carbonate method that is the conventional technology that during the process of introducing an amino group at the reducing terminal of the sugar chain, the unit sugar located at the reducing terminal of the sugar chain is subjected to ring-opening, thus causing a mixture of ? and ? anomers to be produced.