Auxin and light-mediated regulation of growth, morphogenesis, and alkaloid biosynthesis in Crinum x powellii ‘Album’ callus

石蒜碱 生长素 生物碱 生物 老茧 石蒜科 生物合成 形态发生 植物 植物生理学 生物化学 基因
作者
Manoj Koirala,Karen Cristine Gonçalves dos Santos,Sarah‐Eve Gélinas,Simon Ricard,Vahid Karimzadegan,Basanta Lamichhane,Nuwan Sameera Liyanage,Natacha Mérindol,Isabel Desgagné‐Penix
出处
期刊:Phytochemistry [Elsevier BV]
卷期号:216: 113883-113883 被引量:4
标识
DOI:10.1016/j.phytochem.2023.113883
摘要

Crinum x powellii 'Album' belongs to the Amaryllidaceae medicinal plant family that produces a range of structurally diverse alkaloids with potential therapeutic properties. The optimal conditions for in vitro tissue growth, morphogenesis, and alkaloid biosynthesis remain unclear. Auxin and light play critical roles in regulating plant growth, development, and alkaloid biosynthesis in several Amaryllidaceae plants. Here, we have succeeded in showing, for the first time, that the combination of auxin and light significantly influence C. x powellii "Album" in vitro tissue growth, survival, and morphogenesis compared to individual treatments. Furthermore, this combination also upregulates the expression of alkaloid biosynthetic genes and led to an increase in the content of certain alkaloids, suggesting a positive impact on the defense and therapeutic potential of the calli. Our findings provide insights into the regulation of genes involved in alkaloid biosynthesis in C. x powellii "Album" callus and underline the potential of auxin and light as tools for enhancing their production in plants. This study provides a foundation for further exploration of C. x powellii "Album" calli as a sustainable source of bioactive alkaloids for pharmaceutical and agricultural applications. Furthermore, this study paves the way to the discovery of the biosynthetic pathway of specialized metabolites from C. x powellii "Album", such as cherylline and lycorine.

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