植物细胞和有机培养物中特殊代谢物的产生:伽马射线在激发次生代谢中的作用。

Hosakatte Niranjana Murthy, Kadanthottu Sebastian Joseph, Kee Yoeup Paek, So Young Park
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引用次数: 0

摘要

目的:概述应用伽马辐照诱导植物细胞和器官培养物的次生代谢和诱导突变以生产工业上重要的特殊代谢产物(SMs)的最新进展:对植物应用伽马射线的研究为种子的微生物净化以及促进种子萌发、幼苗活力、植物生长和发育等生理过程做出了巨大贡献。各种研究表明,伽马射线对植物的形态、生理和生化都有影响。最近的研究还表明,低剂量伽马射线(5-100 Gy)辐照可作为一种权宜之计,用于减轻非生物胁迫的有害影响,提高植物产量。利用伽马辐照诱变也已发展成为诱导农作物、蔬菜、药用植物和观赏植物遗传变异以改进其基因的更好选择。植物 SM 作为制药、治疗、化妆品和农产品的重要性与日俱增。植物细胞、组织和器官培养是获取有用 SMs 的传统方法之外的一种有吸引力的替代方法。在各种方法中,诱导剂诱导的体外培养技术被认为是研究和改进 SMs 生产的有效工具。本综述重点介绍利用低剂量伽马辐照生产酚类、萜类和生物碱等高价值 SMs 的方法。此外,我们还介绍了伽马射线诱导突变生产 SMs 的各种成功实例。
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Production of specialized metabolites in plant cell and organo-cultures: the role of gamma radiation in eliciting secondary metabolism.

Purpose: To provide an updated summary of recent advances in the application of gamma irradiation to elicit secondary metabolism and for induction of mutations in plant cell and organ cultures for the production of industrially important specialized metabolites (SMs).

Conclusions: Research on the application of gamma radiation with plants has contributed a lot to microbial decontamination of seeds, and the promotion of physiological processes such as seed germination, seedling vigor, plant growth, and development. Various studies have demonstrated the influence of gamma rays on the morphology, physiology, and biochemistry of plants. Recent research efforts have also shown that low-dose gamma (5-100 Gy) irradiation can be utilized as an expedient solution to alleviate the deleterious effect of abiotic stresses and to obtain better yields of plants. Inducing mutagenesis using gamma irradiation has also evolved as a better option for inducing genetic variability in crops, vegetables, medicinal and ornamentals for their genetic improvement. Plant SMs are gaining increasing importance as pharmaceutical, therapeutic, cosmetic, and agricultural products. Plant cell, tissue, and organ cultures represent an attractive alternative to conventional methods of procuring useful SMs. Among the varied approaches the elicitor-induced in vitro culture techniques are considered an efficient tool for studying and improving the production of SMs. This review focuses on the utilization of low-dose gamma irradiation in the production of high-value SMs such as phenolics, terpenoids, and alkaloids. Furthermore, we present varied successful examples of gamma-ray-induced mutations in the production of SMs.

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