Publication: Neurofuzzy logic predicts a fine-tuning metabolic reprogramming on elicited Bryophyllum PCSCs guided by salicylic acid
Authors
Lozano-Milo, Eva ; Zhang, Leilei ; Landin, Mariana ; Lucini, Luigi ; Gallego, Pedro P. ; Miras Moreno, Begoña ; García Pérez, Pascual
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Publisher
Frontiers Media
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DOI
https.//doi.org/10.3389/fpls.2022.991557
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info:eu-repo/semantics/article
Description
© 2022, los autores. This manuscript version is made available under the CC-BY 4.0 license http://creativecommons.org/licenses/by/4.0/. This document is the Published version of a Published Work that appeared in final form in Frontiers in Plant Science. To access the final edited and published work see https://doi.org/10.3389/fpls.2022.991557
Abstract
Novel approaches to the characterization of medicinal plants as biofactories
have lately increased in the field of biotechnology. In this work, a multifaceted approach based on plant tissue culture, metabolomics, and machine learning was applied to decipher and further characterize the biosynthesis of phenolic compounds by eliciting cell suspension cultures from medicinal plants belonging to the Bryophyllum subgenus. The application of untargeted metabolomics provided a total of 460 phenolic compounds. The biosynthesis of 164 of them was significantly modulated by elicitation. The application of neurofuzzy logic as a machine learning tool allowed for deciphering the critical factors involved in the response to elicitation, predicting their influence and interactions on plant cell growth and the biosynthesis of several polyphenols subfamilies. The results indicate that salicylic acid plays a definitive genotype-dependent role in the elicitation of Bryophyllum cell cultures, while methyl jasmonate was revealed as a secondary factor. The knowledge provided by this approach opens a wide perspective on the research of medicinal plants and facilitates their biotechnological exploitation as biofactories in the food, cosmetic and pharmaceutical fields.
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Citation
Front. Plant Sci. 13:991557
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