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Effect of precursor feeding on alkaloid accumulation by a strictosidine synthase over-expressing transgenic cell line S1 of Catharanthus roseus

Effect of precursor feeding on alkaloid accumulation by a strictosidine synthase over-expressing... The transgenic S1 cell line of Catharanthus roseus (L.) G. Don has been used to study possible rate limiting steps in the terpenoid indole alkaloid (TIA) biosynthesis. Line S1 carries a recombinant, over-expressed version of the endogenous Str gene which encodes strictosidine synthase (STR; EC 4.3.3.2). STR catalyzes the stereospecific condensation of tryptamine and secologanin to strictosidine. Various concentrations and combinations of biosynthetic indole precursors L-tryptophan, tryptamine, and iridoid precursors loganin and secologanin were added to the cell suspension cultures of line S1. The largest TIA accumulation occurred when the precursor was supplied at the time of inoculation of the cells into the production medium. Line S1 could supply tryptamine endogenously up to 0.8 mM loganin feeding. The enhancement of the accumulation of TIAs by addition of loganin indicates a limitation in the terpenoid pathway. Supplying tryptamine or tryptophan along with the iridoid precursors resulted in even further increase of alkaloid accumulation. Under optimal conditions, cultures of line S1 accumulated about 600 μmol l−1 of TIAs. Also, the conversion of strictosidine into other TIAs further down the pathway seems to be a limiting step. Considering the mass balance of the intermediates fed and TIAs recovered, several yet unknown pathways must be involved in channeling away intermediates from the TIA pathway and in the breakdown of the TIAs. Our results suggest that high rates of tryptamine synthesis can still take place under conditions of low TDC activity and the flux towards tryptamine is induced by loganin feeding. However, accumulation of tryptamine seems to reduce the flux through feedback inhibition. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Plant Cell, Tissue and Organ Culture Springer Journals

Effect of precursor feeding on alkaloid accumulation by a strictosidine synthase over-expressing transgenic cell line S1 of Catharanthus roseus

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References (23)

Publisher
Springer Journals
Copyright
Copyright © 2002 by Kluwer Academic Publishers
Subject
Life Sciences; Plant Sciences; Plant Physiology
ISSN
0167-6857
eISSN
1573-5044
DOI
10.1023/A:1015090224398
Publisher site
See Article on Publisher Site

Abstract

The transgenic S1 cell line of Catharanthus roseus (L.) G. Don has been used to study possible rate limiting steps in the terpenoid indole alkaloid (TIA) biosynthesis. Line S1 carries a recombinant, over-expressed version of the endogenous Str gene which encodes strictosidine synthase (STR; EC 4.3.3.2). STR catalyzes the stereospecific condensation of tryptamine and secologanin to strictosidine. Various concentrations and combinations of biosynthetic indole precursors L-tryptophan, tryptamine, and iridoid precursors loganin and secologanin were added to the cell suspension cultures of line S1. The largest TIA accumulation occurred when the precursor was supplied at the time of inoculation of the cells into the production medium. Line S1 could supply tryptamine endogenously up to 0.8 mM loganin feeding. The enhancement of the accumulation of TIAs by addition of loganin indicates a limitation in the terpenoid pathway. Supplying tryptamine or tryptophan along with the iridoid precursors resulted in even further increase of alkaloid accumulation. Under optimal conditions, cultures of line S1 accumulated about 600 μmol l−1 of TIAs. Also, the conversion of strictosidine into other TIAs further down the pathway seems to be a limiting step. Considering the mass balance of the intermediates fed and TIAs recovered, several yet unknown pathways must be involved in channeling away intermediates from the TIA pathway and in the breakdown of the TIAs. Our results suggest that high rates of tryptamine synthesis can still take place under conditions of low TDC activity and the flux towards tryptamine is induced by loganin feeding. However, accumulation of tryptamine seems to reduce the flux through feedback inhibition.

Journal

Plant Cell, Tissue and Organ CultureSpringer Journals

Published: Oct 13, 2004

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