Synthesis of N-carboxyalkyl and N-aminoalkyl functionalized dipeptide building units for the assembly of backbone cyclic peptides

• Published in: The journal of peptide research Vol. 54; no. 5; pp. 383 - 393
• Main Authors: Müller, B., Besser, D., Kleinwächter, P., Arad, O., Reissmann, S.
• Format: Journal Article
• Language: English
• Published: Copenhagen, Denmark Munksgaard International Publishers 01.11.1999; Wiley
• Subjects: Amino Acids - chemistry; backbone cyclization; Biochemical Research Methods; Biochemistry & Molecular Biology; Chromatography, High Pressure Liquid; Dipeptides - chemical synthesis; Fluorenes - chemistry; Life Sciences & Biomedicine; Magnetic Resonance Spectroscopy; Mass Spectrometry; N-alkyl amino acids; N-functionalized dipeptide building units; Peptides, Cyclic - chemical synthesis; Science & Technology; synthesis; synthesis; backbone cyclization; REAGENTS; N-functionalized dipeptide building units; ACIDS; ANALOGS; N-alkyl amino acids; ESTERS; CHLORIDES; SUBSTANCE-P
• ISSN: 1397-002X; 1399-3011
• DOI: 10.1034/j.1399-3011.1999.00116.x

: To improve the assembly of backbone cyclic peptides, N‐functionalized dipeptide building units were synthesized. The corresponding N‐aminoalkyl or N‐carboxyalkyl amino acids were formed by alkylation or reductive alkylation of amino acid benzyl or tert‐butyl esters. In the case of N‐aminoalkyl amino acid derivatives the aldehydes for reductive alkylation were obtained from N,O‐dimethyl hydroxamates of N‐protected amino acids by reduction with LiAlH4. N‐carboxymethyl amino acids were synthesized by alkylation using bromoacetic acid ester and the N‐carboxyethyl amino acids via reductive alkylation using aldehydes derived from formyl Meldrums acid. Removal of the carboxy protecting group leads to free N‐alkyl amino acids of very low solubility in organic solvents, allowing efficient purification by extraction of the crude product. These N‐alkyl amino acids were converted to their tetramethylsilane‐esters by silylation with N,O‐bis‐(trimethylsilyl)acetamide and could thus be used for the coupling with Fmoc‐protected amino acid chlorides or fluorides. To avoid racemization the tert‐butyl esters of N‐alkyl amino acids were coupled with the Fmoc‐amino acid halides in the presence of the weak base collidine. Both theN‐aminoalkyl and N‐carboxyalkyl functionalized dipeptide building units could be obtained in good yield and purity. For peptide assembly on the solid support, the allyl type protection of the branching moiety turned out to be most suitable. The Fmoc‐protected N‐functionalized dipeptide units can be used like any amino acid derivative under the standard conditions for Fmoc‐solid phase synthesis.