Genetic improvement of medicinal and aromatic plant species: Breeding techniques, conservative practices and future prospects

Nazarul Hasan , Rafiul Amin Laskar , Shahabab Ahmad Farooqui , Neha Naaz , Nidhi Sharma , Megha Budakoti , Dinesh Chandra Joshi , Sana Choudhary , Mahendar Singh Bhinda
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Abstract

Throughout history, herbal medicine has played a vital role in understanding and treating various ailments in humans and animals. The medicinal aromatic plant species, with their chemical compounds, offer potential solutions for addressing numerous diseases. Enhancing the genetic makeup of these plant species for both medicinal and economic purposes is now imperative. Mutation breeding is a significant strategy, having led to the development of nearly 3500 plant species. Polyploidy induction, doubling chromosomes, can result in larger and more valuable plant parts with medicinal and economic value. Plant tissue culture (PTC) is a crucial breeding technique, allowing for artificial polyploidy and Agrobacterium-mediated gene transformation to manipulate medicinal plant genomes, producing pharmaceutical secondary metabolites. The introduction of the third-generation clustered regularly interspaced short repeats (CRISPR)-Cas9 gene editing system has enabled the correction of defects seen in the first- and second-generation gene editing technologies, which relied on synthetic endonucleases like zinc finger endonuclease (ZFN) and transcription activator-like receptor nuclease (TALEN). These gene editing methods facilitate the manipulation of secondary metabolite pathways in medicinal plants. Virus-induced gene silencing (VIGS) based on short interfering RNA-mediated RNA silencing provides a rapid alternative for knocking out gene expression in medicinal and aromatic plant species that may not easily undergo stable genetic transformation. This article offers an overview of global trends, advancements, and prospects in conserving and breeding of medicinal aromatic plants, and helping as a valuable reference for sustainable resource utilization.
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药用和芳香植物物种的遗传改良:育种技术、保守做法和未来前景
纵观历史,草药在了解和治疗人类和动物的各种疾病方面发挥了重要作用。药用芳香植物物种及其化合物为解决多种疾病提供了潜在的解决方案。目前,为药用和经济目的而增强这些植物物种的基因构成已势在必行。突变育种是一项重要战略,已培育出近 3500 种植物物种。多倍体诱导(染色体加倍)可以培育出更大、更有价值的植物部分,从而具有药用和经济价值。植物组织培养(PTC)是一项重要的育种技术,可通过人工多倍体和农杆菌介导的基因转化来操作药用植物基因组,生产药用次生代谢物。第三代簇状规则间隔短重复序列(CRISPR)-Cas9 基因编辑系统的问世,使第一代和第二代基因编辑技术的缺陷得到了纠正,第一代和第二代基因编辑技术依赖于锌指内切酶(ZFN)和转录激活剂样受体核酸酶(TALEN)等合成内切酶。这些基因编辑方法有助于药用植物次生代谢物途径的操作。基于短干扰 RNA 介导的 RNA 沉默的病毒诱导基因沉默(VIGS)为敲除不易进行稳定遗传转化的药用植物和芳香植物物种的基因表达提供了一种快速的替代方法。本文概述了药用芳香植物保护和育种的全球趋势、进展和前景,有助于为资源的可持续利用提供有价值的参考。
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