Invited Mini-Review Research Topic: Utilization of Protoplasts to Facilitate Gene Editing in Plants: Schemes for In Vitro Shoot Regeneration From Tissues and Protoplasts of Potato and Rapeseed: Implications of Bioengineering Such as Gene Editing of Broad-Leaved Plants.

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Frontiers in genome editing Pub Date : 2022-06-29 eCollection Date: 2022-01-01 DOI:10.3389/fgeed.2022.780004
Erik Andreasson, Nam Phuong Kieu, Muhammad Awais Zahid, Frida Meijer Carlsen, Lenman Marit, Sjur Sandgrind, Bent Larsen Petersen, Li-Hua Zhu
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引用次数: 1

Abstract

Schemes for efficient regenerationand recovery of shoots from in vitro tissues or single cells, such as protoplasts, are only available for limited numbers of plant species and genotypes and are crucial for establishing gene editing tools on a broader scale in agriculture and plant biology. Growth conditions, including hormone and nutrient composition as well as light regimes in key steps of known regeneration protocols, display significant variations, even between the genotypes within the same species, e.g., potato (Solanum tuberosum). As fresh plant material is a prerequisite for successful shoot regeneration, the plant material often needs to be refreshed for optimizing the growth and physiological state prior to genetic transformation. Utilization of protoplasts has become a more important approach for obtaining transgene-free edited plants by genome editing, CRISPR/Cas9. In this approach, callus formation from protoplasts is induced by one set of hormones, followed by organogenesis, i.e., shoot formation, which is induced by a second set of hormones. The requirements on culture conditions at these key steps vary considerably between the species and genotypes, which often require quantitative adjustments of medium compositions. In this mini-review, we outline the protocols and notes for clonal regeneration and cultivation from single cells, particularly protoplasts in potato and rapeseed. We focus mainly on different hormone treatment schemes and highlight the importance of medium compositions, e.g., sugar, nutrient, and light regimes as well as culture durations at the key regeneration steps. We believe that this review would provide important information and hints for establishing efficient regeneration strategies from other closely related and broad-leaved plant species in general.

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研究主题:利用原生质体促进植物基因编辑;马铃薯和油菜籽组织和原生质体离体芽再生方案;阔叶植物基因编辑等生物工程的意义。
从离体组织或单细胞(如原生质体)中高效再生和恢复芽的方案仅适用于有限数量的植物物种和基因型,对于在农业和植物生物学中建立更大规模的基因编辑工具至关重要。生长条件,包括激素和营养成分以及已知再生方案关键步骤的光照制度,显示出显著的差异,甚至在同一物种的基因型之间,例如马铃薯(Solanum tuberosum)。由于新鲜的植株材料是茎部再生成功的先决条件,在遗传转化之前,经常需要对植株材料进行更新,以优化其生长和生理状态。利用原生质体已成为基因组编辑CRISPR/Cas9获得无转基因编辑植物的更重要途径。在这种方法中,原生质体的愈伤组织形成是由一组激素诱导的,然后是器官发生,即由第二组激素诱导的嫩枝形成。这些关键步骤对培养条件的要求在物种和基因型之间有很大差异,这通常需要对培养基成分进行定量调整。在这篇综述中,我们概述了单细胞克隆再生和培养的方案和注意事项,特别是马铃薯和油菜籽的原生质体。我们主要关注不同的激素处理方案,并强调培养基组成的重要性,例如糖、营养物质、光照制度以及关键再生步骤的培养时间。我们相信这一综述将为其他近缘阔叶植物建立有效的更新策略提供重要的信息和提示。
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CiteScore
7.00
自引率
0.00%
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0
审稿时长
13 weeks
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