Transgene-free genome editing of plants

Q3 Agricultural and Biological Sciences

Ecological genetics Pub Date : 2023-12-04 DOI:10.17816/ecogen567964

Elena V. Mikhaylova

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引用次数: 0

Abstract

The presence of foreign DNA is the main obstacle to the application of biotechnological plant varieties. However, transgene-free technologies in the field of genome editing make it possible to overcome this problem. In most countries that already have legislation in this area, plants without foreign DNA do not require field trials and safety tests. The easiest way to avoid integration of transgenes is the delivery of RNP complexes directly into the cell without the use of plasmids. However subsequent selection of edited cells in the absence of a selective marker and plant regeneration are quite difficult. Therefore, traditional genetic constructs are used more often, despite that the elements of the CRISPR system are integrated into the genome. Backcrossing and cross-pollination are used to get rid of unwanted inserts. There are opportunities to accelerate the selection process, such as the Transgene Killer CRISPR system, which ensures the death of plants carrying transgenes in the early embryonic stages [1]. Constructs based on viral replicons integrated into T-DNA are an alternative option. They provide a high level of transient expression of CRISPR elements which are not integrated into the genome. Such vectors were created on the basis of geminiviruses, rhabdoviruses, potexviruses, potyviruses, bunyaviruses [2]. The ability of viruses to move between cells can be both preserved and lost due to the removal of the corresponding proteins. One of the newest approaches is grafting of shoots onto roots expressing Cas and guide RNA [3]. The addition of tRNA-like motifs to the transcripts ensured their mobility and dispersal along the shoot. Heritable edits were observed in the progeny of grafted plants. Thus, for transgene-free editing technologies of plant genomes are rapidly developing, which will accelerate the commercialization of new varieties with economically valuable traits.

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无转基因植物基因组编辑

外源DNA的存在是生物技术植物品种应用的主要障碍。然而，基因组编辑领域的无转基因技术使克服这一问题成为可能。在大多数已经在这方面立法的国家，没有外源DNA的植物不需要实地试验和安全测试。避免转基因整合的最简单方法是不使用质粒直接将RNP复合物递送到细胞中。然而，在缺乏选择标记和植物再生的情况下，编辑细胞的后续选择是相当困难的。因此，尽管CRISPR系统的元素被整合到基因组中，但传统的遗传结构更常被使用。回交和异花授粉用于去除不需要的插入物。有机会加速选择过程，例如转基因杀手CRISPR系统，它确保携带转基因的植物在早期胚胎阶段死亡[1]。基于整合到T-DNA中的病毒复制子的构建是另一种选择。它们提供了CRISPR元素的高水平瞬时表达，而这些元素没有整合到基因组中。这些载体是在双病毒、横纹肌病毒、痘病毒、痘病毒、布尼亚病毒的基础上产生的[2]。病毒在细胞间移动的能力既可以保留，也可以由于相应蛋白质的移除而丧失。最新的一种方法是将芽嫁接到表达Cas和引导RNA的根上[3]。转录本中trna样基序的添加确保了它们沿茎的移动性和分散。在嫁接植物的后代中观察到遗传编辑。因此，植物基因组的无转基因编辑技术正在迅速发展，这将加速具有经济价值性状的新品种的商业化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ecological genetics Environmental Science-Ecology

CiteScore

0.90

自引率

0.00%

发文量

期刊介绍： The journal Ecological genetics is an international journal which accepts for consideration original manuscripts that reflect the results of field and experimental studies, and fundamental research of broad conceptual and/or comparative context corresponding to the profile of the Journal. Once a year, the editorial Board reviews and, if necessary, corrects the rules for authors and the journal rubrics.