Improved solid phase synthesis of C-terminal peptide aldehydes

A new linker based on the dibenzosuberyl system was developed in order to synthesis¢ peptide Cterminal semicarbazones which can b¢ readily converted into peptide (7-terminal aldehydes. The method uses Fmoc-methodoiogy and proceeds with no loss of stereochemical integrity.

## Abstract Solid‐phase synthesis of biomolecules, of which peptides are the principal example, is well established. However, synthetic peptides containing modifications at the carboxy termini are often desired because of their potential therapeutic properties. As a result, there is a necessity for

The solid-phase syntheses of enkephalin and somatostatin analogues with C-terminal OH functions instead of the normal carboxylates are described. The OH function of the N-terminal amino alcohol was acylated with succinic acid and esterified to the solid support. Normal Boc-TFA solid-phase strategy c

An efficient method for the solid phase synthesis of aspartyl aldehyde peptides has been developed. It uses a low cost synthetic process for the preparation of Fmoc-protected Weinreb amide linker. This procedure covers several tetrapeptide aspartyl aldehydes as well as biotinylated tetrapeptide aspa