Kazuya Wakui scite author profile

Herein, we present a new and efficient convergent solution-phase synthetic strategy for producing peptides containing N-methyl amino acids. Specifically, we have synthesized a model cyclic octapeptide with two N-methyl amino acids, utilizing an isostearyl-mixed anhydride coupling methodology and a novel silyl ester-protecting group, cyclohexyl di-tert-butyl silyl (cHBS). This newly developed method uses an isostearic acid chloride (ISTA-Cl) and silylation reagent that allows coupling between N-and Cterminally unprotected amino acids with sterically hindered N-methyl amino acids. High yields of four dipeptide fragments are efficiently synthesized by omitting the traditional C-terminal deprotection step. The silyl ester-protecting group at the C-terminus is stable during general peptide synthesis, and is selectively cleaved by fluoride ions. This group further suppresses diketopiperazine formation during the deprotection of the N α -amino-protecting group. The linear octapeptide precursor is convergently synthesized utilizing protection and selective deprotection of the silyl ester-protecting group, and the cyclic octapeptide can be obtained with high purity using this novel methodology, via a route shorter than conventional solution-phase peptide synthesis strategies.

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Chiral phosphine-prolineamide as an organocatalyst in direct asymmetric aldol reactions

Mino

Omura

Uda

et al. 2011

Tetrahedron: Asymmetry

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Kazuya Wakui

Palladium-catalyzed asymmetric allylic alkylation of indoles by C–N bond axially chiral phosphine ligands

N-Aryl indole-derived C–N bond axially chiral phosphine ligands: synthesis and application in palladium-catalyzed asymmetric allylic alkylation

Kinetic resolution of allylic esters in palladium-catalyzed asymmetric allylic alkylations using C–N bond axially chiral aminophosphine ligands

Extended Solution-phase Peptide Synthesis Strategy Using Isostearyl-Mixed Anhydride Coupling and a New C-Terminal Silyl Ester-Protecting Group for N-Methylated Cyclic Peptide Production

Chiral phosphine-prolineamide as an organocatalyst in direct asymmetric aldol reactions

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