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Merck
CN
  • The bHLH transcription factor BIS1 controls the iridoid branch of the monoterpenoid indole alkaloid pathway in Catharanthus roseus.

The bHLH transcription factor BIS1 controls the iridoid branch of the monoterpenoid indole alkaloid pathway in Catharanthus roseus.

Proceedings of the National Academy of Sciences of the United States of America (2015-06-17)
Alex Van Moerkercke, Priscille Steensma, Fabian Schweizer, Jacob Pollier, Ivo Gariboldi, Richard Payne, Robin Vanden Bossche, Karel Miettinen, Javiera Espoz, Purin Candra Purnama, Franziska Kellner, Tuulikki Seppänen-Laakso, Sarah E O'Connor, Heiko Rischer, Johan Memelink, Alain Goossens
摘要

Plants make specialized bioactive metabolites to defend themselves against attackers. The conserved control mechanisms are based on transcriptional activation of the respective plant species-specific biosynthetic pathways by the phytohormone jasmonate. Knowledge of the transcription factors involved, particularly in terpenoid biosynthesis, remains fragmentary. By transcriptome analysis and functional screens in the medicinal plant Catharanthus roseus (Madagascar periwinkle), the unique source of the monoterpenoid indole alkaloid (MIA)-type anticancer drugs vincristine and vinblastine, we identified a jasmonate-regulated basic helix-loop-helix (bHLH) transcription factor from clade IVa inducing the monoterpenoid branch of the MIA pathway. The bHLH iridoid synthesis 1 (BIS1) transcription factor transactivated the expression of all of the genes encoding the enzymes that catalyze the sequential conversion of the ubiquitous terpenoid precursor geranyl diphosphate to the iridoid loganic acid. BIS1 acted in a complementary manner to the previously characterized ethylene response factor Octadecanoid derivative-Responsive Catharanthus APETALA2-domain 3 (ORCA3) that transactivates the expression of several genes encoding the enzymes catalyzing the conversion of loganic acid to the downstream MIAs. In contrast to ORCA3, overexpression of BIS1 was sufficient to boost production of high-value iridoids and MIAs in C. roseus suspension cell cultures. Hence, BIS1 might be a metabolic engineering tool to produce sustainably high-value MIAs in C. roseus plants or cultures.

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Sigma-Aldrich
吲哚, ≥99%
Sigma-Aldrich
香叶醇, 98%
Sigma-Aldrich
青蒿素, 98%
Sigma-Aldrich
香叶醇, natural, ≥97%, FG
Sigma-Aldrich
香叶醇, ≥97%, FCC, FG
Sigma-Aldrich
吲哚, ≥99%, FG