Rearrangements in the mechanisms of the indole alkaloid prenyltransferases

Rearrangements in the mechanisms of the indole alkaloid prenyltransferases

The indole prenyltransferases are a family of metal-independent enzymes that catalyze the transfer of a prenyl group from dimethylallyl diphosphate (DMAPP) onto the indole ring of a tryptophan residue. These enzymes are remarkable in their ability to direct the prenyl group in either a "normal&...

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Veröffentlicht in:Pure and applied chemistry 2013-01, Vol.85 (10), p.1935-1948
Hauptverfasser: Mahmoodi, Niusha, Qian, Qi, Luk, Louis Y. P., Tanner, Martin E.
Format: Artikel
Sprache:eng
Schlagworte:
Alkaloids
carbocation rearrangement
Cope rearrangement
Diphosphates
Enzymes
Homology
indole alkaloids
Indoles
Ion pairs
mechanism
prenyltransferase
Residues
Rings (mathematics)
Tryptophan
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container_end_page 1948
container_issue 10
container_start_page 1935
container_title Pure and applied chemistry
container_volume 85
creator Mahmoodi, Niusha
Qian, Qi
Luk, Louis Y. P.
Tanner, Martin E.
description The indole prenyltransferases are a family of metal-independent enzymes that catalyze the transfer of a prenyl group from dimethylallyl diphosphate (DMAPP) onto the indole ring of a tryptophan residue. These enzymes are remarkable in their ability to direct the prenyl group in either a "normal" or "reverse" fashion to positions with markedly different nucleophilicity. The enzyme 4-dimethylallyltryptophan synthase (4-DMATS) prenylates the non-nucleophilic C-4 position of the indole ring in free tryptophan. Evidence is presented in support of a mechanism that involves initial ion pair formation followed by a reverse prenylation at the nucleophilic C-3 position. A Cope rearrangement then generates the C-4 normal prenylated intermediate and deprotonation rearomatizes the indole ring. The enzyme tryprostatin B synthase (FtmPT1) catalyzes the normal C-2 prenylation of the indole ring in brevianamide F ( -L-Trp-L-Pro). It shares high structural homology with 4-DMATS, and evidence is presented in favor of an initial C-3 prenylation (either normal or reverse) followed by carbocation rearrangements to give product. The concept of a common intermediate that partitions to different products via rearrangements can help to explain how these evolutionarily related enzymes can prenylate different positions on the indole ring.
doi_str_mv 10.1351/pac-con-13-02-02
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subjects Alkaloids
carbocation rearrangement
Cope rearrangement
Diphosphates
Enzymes
Homology
indole alkaloids
Indoles
Ion pairs
mechanism
prenyltransferase
Residues
Rings (mathematics)
Tryptophan
title Rearrangements in the mechanisms of the indole alkaloid prenyltransferases
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