Evaluation of an Alkyne-containing Analogue of Farnesyl Diphosphate as a Dual Substrate for Protein-prenyltransferases |
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Authors: | Ayako Hosokawa James W. Wollack Zhiyuan Zhang Lin Chen George Barany Mark D. Distefano |
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Affiliation: | (1) Department of Chemistry, University of Minnesota, Minneapolis, MN 55455, USA |
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Abstract: | ![]() The development of tools for proteomic analysis is an active area of research. Here, we report on the synthesis of 12-propargoxyfarnesyl diphosphate (1), an alkyne-containing analogue of farnesyl diphosphate (FPP), and its enzymatic incorporation into peptide substrates by both protein-farnesyltransferase (PFTase) and protein-geranylgeranyltransferase type I (PGGTase-I). Compound 1 was prepared from farnesol in 6 steps. Kinetic analyses indicate that 1 is incorporated into cognate peptide substrates by PFTase or PGGTase at concentrations and rates comparable to those of the natural lipid substrates for these enzymes, and mass spectrometric analyses proved the structures of the prenylated peptide products. Incubation of 1 in the presence of PFTase and PGGTase peptide substrates, and the cognate transferases, results in the simultaneous prenylation of both peptides emphasizing the dual substrate nature of 1. Thus, because 1 is a substrate for both enzymes, it can be used to introduce alkyne functionality into proteins that are normally either farnesylated or geranylgeranylated. This approach should be useful for a broad range of applications ranging from selective protein labeling to proteomic analysis. This paper is dedicated to the memory of Bruce Merrifield (1921–2006) for his pioneering development of solid-phase peptide synthesis, which has made possible myriad advances in chemical biology. For the present study, we used SPPS to prepare protein fragments that incorporate spectroscopic probes to reveal critical features in enzyme substrate recognition that have implications for human health. |
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Keywords: | alkyne farnesyltransferase geranylgeranyltransferase peptide modification prenylated peptide |
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