Synthesis of decapeptide ofl-aspartic acid and benzyl-l-aspartic acid by solid phase peptide synthesis

A short synthesis of a novel Fmoc-derivative 2b of the phosphonic acid isostere I of aspartic acid is presented. Incorporation of 2b into peptides was readily achieved using standard Fmoc-solid phase synthesis. Efficient removal of the allyl protecting groups after sequence assembly under mild condi

A series of 1,3-diamino-2-propanol derivatives have been synthesized on solid phase as potential aspar'tic acid protease irdaibitors. The developed methodology allows the incorporation of either an alkyl group or H at the R 2 site of hydroxyethylamine isostere.

## Abstract The Fmoc‐based SPPS of H‐Xaa‐Asp(OBzl)‐Yaa‐Gly‐NH~2~ sequences results in side reactions yielding not only aspartimide peptides and piperidide derivatives, but also 1,4‐diazepine‐2,5‐dione‐peptides. Evidence is presented to show that the 1,4‐diazepine‐2,5‐dione derivative is formed from

A synthesis of the title compound from /13Clparaformaldehyde and [15N)ammonium chloride V f 8 ethyl 2-(1 ,3-/2-13Cldithianyl) acetate 3a is described. Ethyl/3-13C13-oxopropanoate derived in sl'tu from 3a was converted by a stepwise Strecker procedure to DL-[ 2-13C,15Nlaspartic acid 7a.