The carbenoid approach to peptide synthesis

R.T. Buck; P.A. Clarke; D.M. Coe; M.J. Drysdale; L. Ferris; David Haigh; C.J. Moody; N.D. Pearson; E. Swann

The carbenoid approach to peptide synthesis

R.T. Buck
, P.A. Clarke
, D.M. Coe
, M.J. Drysdale
, L. Ferris
, David Haigh
, C.J. Moody
, N.D. Pearson
, E. Swann

Research output: Contribution to journal › Article › peer-review

Abstract

A different approach to the synthesis of dipeptides is described based on the formation of the (NHCHRCONH)-C-1-(CHRCO)-C-2 bond by carbenoid N-H insertion, rather than the formation of the peptide bond itself. Thus decomposition of triethyl diazophosphonoacetate catalysed by rhodium(Ii) acetate in the presence of N-protected amino acid amides 8 gives the phosphonates 9, Subsequent Wadsworth-Emmons reaction of 9 with aldehydes in the presence of DBU gives dehydro dipeptides 10. The reaction has been extended to a simple two-step procedure, without the isolation of the intermediate phosphonate. for conversion of a range of amino acid amides 11 into dehydro dipepides 12 and to an N-methylamide 11h, and for conversion of a dipeptide: to tripeptide (13-14). Direct conversion, by using methyl diazophenylacetate, of amino acid amides to phenylglycine-containing dipeptides 19 proceeds in good chemical yield, but with poor diastereoselectivity.

Original language	English
Pages (from-to)	2160-2167
Number of pages	8
Journal	Chemistry-a European Journal
Volume	6
Issue number	12
Publication status	Published - 16 Jun 2000

ASJC Scopus subject areas

General Chemistry

Cite this

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title = "The carbenoid approach to peptide synthesis",

abstract = "A different approach to the synthesis of dipeptides is described based on the formation of the (NHCHRCONH)-C-1-(CHRCO)-C-2 bond by carbenoid N-H insertion, rather than the formation of the peptide bond itself. Thus decomposition of triethyl diazophosphonoacetate catalysed by rhodium(Ii) acetate in the presence of N-protected amino acid amides 8 gives the phosphonates 9, Subsequent Wadsworth-Emmons reaction of 9 with aldehydes in the presence of DBU gives dehydro dipeptides 10. The reaction has been extended to a simple two-step procedure, without the isolation of the intermediate phosphonate. for conversion of a range of amino acid amides 11 into dehydro dipepides 12 and to an N-methylamide 11h, and for conversion of a dipeptide: to tripeptide (13-14). Direct conversion, by using methyl diazophenylacetate, of amino acid amides to phenylglycine-containing dipeptides 19 proceeds in good chemical yield, but with poor diastereoselectivity.",

author = "R.T. Buck and P.A. Clarke and D.M. Coe and M.J. Drysdale and L. Ferris and David Haigh and C.J. Moody and N.D. Pearson and E. Swann",

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language = "English",

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TY - JOUR

T1 - The carbenoid approach to peptide synthesis

AU - Buck, R.T.

AU - Clarke, P.A.

AU - Coe, D.M.

AU - Drysdale, M.J.

AU - Ferris, L.

AU - Haigh, David

AU - Moody, C.J.

AU - Pearson, N.D.

AU - Swann, E.

PY - 2000/6/16

Y1 - 2000/6/16

N2 - A different approach to the synthesis of dipeptides is described based on the formation of the (NHCHRCONH)-C-1-(CHRCO)-C-2 bond by carbenoid N-H insertion, rather than the formation of the peptide bond itself. Thus decomposition of triethyl diazophosphonoacetate catalysed by rhodium(Ii) acetate in the presence of N-protected amino acid amides 8 gives the phosphonates 9, Subsequent Wadsworth-Emmons reaction of 9 with aldehydes in the presence of DBU gives dehydro dipeptides 10. The reaction has been extended to a simple two-step procedure, without the isolation of the intermediate phosphonate. for conversion of a range of amino acid amides 11 into dehydro dipepides 12 and to an N-methylamide 11h, and for conversion of a dipeptide: to tripeptide (13-14). Direct conversion, by using methyl diazophenylacetate, of amino acid amides to phenylglycine-containing dipeptides 19 proceeds in good chemical yield, but with poor diastereoselectivity.

AB - A different approach to the synthesis of dipeptides is described based on the formation of the (NHCHRCONH)-C-1-(CHRCO)-C-2 bond by carbenoid N-H insertion, rather than the formation of the peptide bond itself. Thus decomposition of triethyl diazophosphonoacetate catalysed by rhodium(Ii) acetate in the presence of N-protected amino acid amides 8 gives the phosphonates 9, Subsequent Wadsworth-Emmons reaction of 9 with aldehydes in the presence of DBU gives dehydro dipeptides 10. The reaction has been extended to a simple two-step procedure, without the isolation of the intermediate phosphonate. for conversion of a range of amino acid amides 11 into dehydro dipepides 12 and to an N-methylamide 11h, and for conversion of a dipeptide: to tripeptide (13-14). Direct conversion, by using methyl diazophenylacetate, of amino acid amides to phenylglycine-containing dipeptides 19 proceeds in good chemical yield, but with poor diastereoselectivity.

UR - https://www.scopus.com/pages/publications/0034674246

M3 - Article

SN - 1521-3765

VL - 6

SP - 2160

EP - 2167

JO - Chemistry-a European Journal

JF - Chemistry-a European Journal

IS - 12

ER -

The carbenoid approach to peptide synthesis

Abstract

ASJC Scopus subject areas

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