Solid-phase peptide synthesis and circular dichroism study of chiral β-peptoid homooligomers

Although numerous examples of asymmetric molecules which owe their chirality to isotopic substitution are known, 3 few are reported3 to display Cotton effects in either optical rotatory disper sion(ord) or circular dichroism(cd). We wish to report the successful

## Abstract In this paper we describe the synthesis of chiral peptide nucleic acids (PNAs) 1–3 using SPPS methodologies. Starting material for the monomer units was the commercially available amino acid ornithine. l‐ or D‐ornithine and the nucleobase thymine were linked by a carboxymethylene spacer

## Abstract Fmoc‐protected __β__‐aminoethane sulfonylchlorides can be employed for efficient automated solid phase synthesis of __β__‐peptidosulfonamides and __β__‐peptidosulfonamide/__β__‐peptide hybrids containing one or more __β__‐peptidosulfonamide residues. Thus, Fmoc‐protected __β__‐aminoetha

The ability to speed up conventional Fmoc solid‐phase peptide synthesis (SPPS) has many advantages including increased productivity. One way to speed up conventional Fmoc SPPS is the choice of activator. Recently, several new activators have been introduced into the market, and they were evaluated a