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Secure and Sustainable Sourcing of Plant Tissues for the Exhaustive Exploration of Their Chemodiversity.

Rhodin C JosephMatheus Silva da Fonseca DinizViviane Magno do NascimentoAbraão de Jesus Barbosa MuribecaJohan Carlos Costa SantiagoLuziane da Cunha BorgesPaulo Roberto da Costa SáPaulo Wender Portal GomesJúlio César da Silva CardosoMarcela Natalia Rocha de CastroThais FiusaHervé Louis Ghislain RogezSylvain DarnetMara Silvia Pinheiro ArrudaMilton Nascimento da SilvaAlberto Cardoso ArrudaJean A BoutinConsuelo Yumiko Yoshioka E SilvaEmmanuelle Lautié
Published in: Molecules (Basel, Switzerland) (2020)
The main challenge of plant chemical diversity exploration is how to develop tools to study exhaustively plant tissues. Their sustainable sourcing is a limitation as bioguided strategies and dereplication need quite large amounts of plant material. We examine if alternative solutions could overcome these difficulties by obtaining a secure, sustainable, and scalable source of tissues able to biosynthesize an array of metabolites. As this approach would be as independent of the botanical origin as possible, we chose eight plant species from different families. We applied a four steps culture establishment procedure, monitoring targeted compounds through mass spectrometry-based analytical methods. We also characterized the capacities of leaf explants in culture to produce diverse secondary metabolites. In vitro cultures were successfully established for six species with leaf explants still producing a diversity of compounds after the culture establishment procedure. Furthermore, explants from leaves of axenic plantlets were also analyzed. The detection of marker compounds was confirmed after six days in culture for all tested species. Our results show that the first stage of this approach aiming at easing exploration of plant chemodiversity was completed, and leaf tissues could offer an interesting alternative providing a constant source of natural compounds.
Keyphrases
  • gene expression
  • mass spectrometry
  • ms ms
  • cell wall
  • minimally invasive
  • liquid chromatography
  • drug delivery