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Structural investigation of heteroyohimbine alkaloid synthesis reveals active site elements that control stereoselectivity

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Listed:
  • Anna Stavrinides

    (The John Innes Centre)

  • Evangelos C. Tatsis

    (The John Innes Centre)

  • Lorenzo Caputi

    (The John Innes Centre)

  • Emilien Foureau

    (Université François-Rabelais de Tours, EA2106 ‘Biomolécules et Biotechnologies Végétales’)

  • Clare E. M. Stevenson

    (The John Innes Centre)

  • David M. Lawson

    (The John Innes Centre)

  • Vincent Courdavault

    (Université François-Rabelais de Tours, EA2106 ‘Biomolécules et Biotechnologies Végétales’)

  • Sarah E. O'Connor

    (The John Innes Centre)

Abstract

Plants produce an enormous array of biologically active metabolites, often with stereochemical variations on the same molecular scaffold. These changes in stereochemistry dramatically impact biological activity. Notably, the stereoisomers of the heteroyohimbine alkaloids show diverse pharmacological activities. We reported a medium chain dehydrogenase/reductase (MDR) from Catharanthus roseus that catalyses formation of a heteroyohimbine isomer. Here we report the discovery of additional heteroyohimbine synthases (HYSs), one of which produces a mixture of diastereomers. The crystal structures for three HYSs have been solved, providing insight into the mechanism of reactivity and stereoselectivity, with mutation of one loop transforming product specificity. Localization and gene silencing experiments provide a basis for understanding the function of these enzymes in vivo. This work sets the stage to explore how MDRs evolved to generate structural and biological diversity in specialized plant metabolism and opens the possibility for metabolic engineering of new compounds based on this scaffold.

Suggested Citation

  • Anna Stavrinides & Evangelos C. Tatsis & Lorenzo Caputi & Emilien Foureau & Clare E. M. Stevenson & David M. Lawson & Vincent Courdavault & Sarah E. O'Connor, 2016. "Structural investigation of heteroyohimbine alkaloid synthesis reveals active site elements that control stereoselectivity," Nature Communications, Nature, vol. 7(1), pages 1-14, November.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms12116
    DOI: 10.1038/ncomms12116
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    Cited by:

    1. Jun Guo & Di Gao & Jiazhang Lian & Yang Qu, 2024. "De novo biosynthesis of antiarrhythmic alkaloid ajmaline," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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