TY - JOUR
T1 - Synthesis and reactivity of 6,7-dihydrogeranylazides
T2 - Reagents for primary azide incorporation into peptides and subsequent staudinger ligation
AU - Xu, Juhua
AU - DeGraw, Amanda J.
AU - Duckworth, Benjamin P.
AU - Lenevich, Stepan
AU - Tann, Cheng Min
AU - Jenson, Emily C.
AU - Gruber, Simon J.
AU - Barany, George
AU - Distefano, Mark D.
N1 - Copyright:
Copyright 2011 Elsevier B.V., All rights reserved.
PY - 2006/8
Y1 - 2006/8
N2 - Protein farnesyltransferase (PFTase) catalyzes the attachment of a geranylazide moiety to a peptide substrate, N-dansyl-GCVIA. Because geranylazide is actually a mixture of isomeric, interconverting primary and secondary azides, incorporation of this isoprenoid into peptides can potentially result in a corresponding mixture of prenylated peptides. Here, we first examined the reactivity of geranyl azide in a model Staudinger reaction and determined that a mixture of products is formed. We then describe the synthesis of 6,7-dihydrogeranylazide diphosphate and demonstrate that this compound allows exclusive incorporation of a primary azide into a peptide. The resulting azide-containing peptide was derivatized with a triphenylphosphine-based reagent to generate an O-alkyl imidate-linked product. Finally, we show, using a series of model reactions, that the Staudinger ligation frequently produces small amounts of O-alkyl imidate products in addition to the major amide-linked products. Thus, the alkoxyimidates we have observed as the exclusive products in the reactions of peptides containing prenylated azides also appear to be a common type of product formed using other azide-containing reactants, although at greatly reduced levels. This method for chemical modification of the C-terminus of a protein should be useful for a variety of applications in protein chemistry.
AB - Protein farnesyltransferase (PFTase) catalyzes the attachment of a geranylazide moiety to a peptide substrate, N-dansyl-GCVIA. Because geranylazide is actually a mixture of isomeric, interconverting primary and secondary azides, incorporation of this isoprenoid into peptides can potentially result in a corresponding mixture of prenylated peptides. Here, we first examined the reactivity of geranyl azide in a model Staudinger reaction and determined that a mixture of products is formed. We then describe the synthesis of 6,7-dihydrogeranylazide diphosphate and demonstrate that this compound allows exclusive incorporation of a primary azide into a peptide. The resulting azide-containing peptide was derivatized with a triphenylphosphine-based reagent to generate an O-alkyl imidate-linked product. Finally, we show, using a series of model reactions, that the Staudinger ligation frequently produces small amounts of O-alkyl imidate products in addition to the major amide-linked products. Thus, the alkoxyimidates we have observed as the exclusive products in the reactions of peptides containing prenylated azides also appear to be a common type of product formed using other azide-containing reactants, although at greatly reduced levels. This method for chemical modification of the C-terminus of a protein should be useful for a variety of applications in protein chemistry.
KW - CAAX box
KW - Cysteine modification
KW - Farnesyltransferase
KW - Geranylazide
KW - Prenylated peptides
KW - Prenylazide
KW - Protein modification
KW - Selective peptide modification
KW - Staudinger ligation
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U2 - 10.1111/j.1747-0285.2006.00420.x
DO - 10.1111/j.1747-0285.2006.00420.x
M3 - Article
C2 - 16999773
AN - SCOPUS:33749038635
SN - 1747-0277
VL - 68
SP - 85
EP - 96
JO - Chemical Biology and Drug Design
JF - Chemical Biology and Drug Design
IS - 2
ER -