Biology:Bailey peptide synthesis

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The Bailey peptide synthesis is a name reaction in organic chemistry developed 1949 by J. L. Bailey.[1][2] It is a method for the synthesis of a peptide from α-amino acid-N-carboxylic acid anhydrides (NCAs) and amino acids or peptide esters.[2][3] The reaction is characterized by short reaction times and a high yield of the target peptide.[2] The reaction can be carried out at low temperatures in organic solvents.[2] The residues R1 and R2 can be organic groups or hydrogen atoms, R3 is the used amino acid or peptide ester:[2]

Übersichtsreaktion der Bailey-Peptid-Synthese

Reaction mechanism

The reaction mechanism is not known in detail. Supposedly, the reaction begins with a nucleophilic attack of the amino group on the carbonyl carbon of the anhydride group of the N-carboxylic acid anhydride (1). After an intramolecular proton migration, a 1,4-proton shift and the cleavage of carbon dioxide follows, resulting in the peptide bond in the final product (2):[2]

Übersichtsreaktion der Bailey-Peptid-Synthese

Atom economy

The advantage in atom economy of using NCAs for peptide formation is that there is no need for a protecting group on the functional group reacted with the amino acid.[4] For example, the Merrifield synthesis depends on the use of Boc and Bzl protecting groups, which need be removed after the reaction.[5] In the case of Bailey peptide synthesis, the free peptide is directly obtained after the reaction.[4] However, unwanted and difficult to remove by-products may be formed.[4] An N-substitution of the NCA (for example, by an o-nitrophenylsulfenyl group) can simplify the subsequent purification process, but on the other hand deteriorates the atom economy of the reaction. [4] The synthesis of NCAs can be carried out by the Leuchs reaction[6] or by the reaction of N-(benzyloxycarbonyl)-amino acids with oxalyl chloride.[7] In the latter case, again the procedure is less efficient in the sense of atom economy.

Synthesized peptides

The following peptides were synthesized using this method by 1949:[3]

Literature

  • P. Katsoyannis: The Chemistry of Polypeptides. Springer Science & Business Media, 2012, ISBN:978-1-461-34571-8, S. 129.

References

  1. J. L. Bailey: A new peptide synthesis. In: Nature. Band 164, Nummer 4177, November 1949, S. 889, PMID 15407090.
  2. 2.0 2.1 2.2 2.3 2.4 2.5 Daniel Zerong Wang (2009), Comprehensive Organic Name Reactions and Reagents, 1, Hoboken New Jersey: John Wiley & Sons, Inc., pp. 156–159, ISBN 978-0-471-70450-8 
  3. 3.0 3.1 J. Leggett Bailey: A new Peptide Synthesis. In: Nature. Band 164, Nr. 4177, 1949, S. 889, DOI:10.1038/164889a0.
  4. 4.0 4.1 4.2 4.3 Ryoichi Katakai: Peptide Synthesis Using o-Nitrophenylsulfenyl N-Carboxy α-Amino Acid Anhydrides. In: The Journal of Organic Chemistry., Band 40, Nr. 19, 1975, S. 2697–2702, DOI:10.1021/jo00907a001.
  5. Hans-Dieter Jakubke (1996) (in German), Peptide. Chemie und Biologie, Heidelberg Berlin Oxford: Spektrum Akademischer Verlag GmbH, p. 178, ISBN 3-8274-0000-7 
  6. Hans Rytger Kricheldorf: α-Aminoacid-N-Carboxy-Anhydrides and Related Heterocycles. Syntheses, Properties, Peptide Synthesis, Polymerization. Springer Verlag, Berlin Heidelberg, 1987, S. 1–4, DOI: 10.1007/978-3-642-71586-0, ISBN:978-3-642-71588-4 (Druck), ISBN:978-3-642-71586-0 (Online).
  7. D. Konopinska, I.Z. Siemion: Synthesis of N-Carboxy-α-amino Acid Anhydrides. In: Angewandte Chemie International Edition. Band 6, Nr. 3, 1967, S. 248, DOI:10.1002/anie.196702481.