Establishment of an Efficient Protoplast Regeneration and Transfection Protocol for Field Cress (Lepidium campestre).

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Sjur Sandgrind, Xueyuan Li, Emelie Ivarson, Annelie Ahlman, Li-Hua Zhu
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引用次数: 2

Abstract

Field cress (Lepidium campestre) is a potential oilseed crop that has been under domestication in recent decades. CRISPR/Cas9 is a powerful tool for rapid trait improvement and gene characterization and for generating transgene-free mutants using protoplast transfection system. However, protoplast regeneration remains challenging for many plant species. Here we report an efficient protoplast regeneration and transfection protocol for field cress. Important factors such as type of basal media, type/combination of plant growth regulators, and culture duration on different media were optimized. Among the basal media tested, Nitsch was the best for protoplast growth in MI and MII media. For cell wall formation during the early stage of protoplast growth, relatively high auxin concentrations (0.5 mg L-1 NAA and 2,4-D), without addition of cytokinin was preferred for maintaining protoplast viability. After cell wall formation, 1.1 mg L-1 TDZ combined with either 0.05 mg L-1 NAA or 2,4-D was found to efficiently promote protoplast growth. On solid shoot induction medium, 1.1 mg L-1 TDZ without any auxin resulted in over 80% shoot generation frequency. A longer culture duration in MI medium would inhibit protoplast growth, while a longer culture duration in MII medium significantly delayed shoot formation. Using this optimized protoplast regeneration protocol, we have established an efficient PEG-mediated transfection protocol using a vector harboring the GFP gene, with transfection efficiencies of 50-80%. This efficient protoplast protocol would facilitate further genetic improvement of field cress via genome editing, and be beneficial to development of protoplast regeneration protocols for related plant species.

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田产水韭原生质体高效再生及转染方案的建立。
油菜(Lepidium campestre)是一种潜在的油料作物,近几十年来一直处于驯化阶段。CRISPR/Cas9是快速性状改良和基因鉴定的有力工具,也是利用原生质体转染系统产生无转基因突变体的有力工具。然而,原生质体再生对许多植物物种来说仍然是一个挑战。本文报道了一种高效的大田水韭原生质体再生和转染方法。对基础培养基类型、植物生长调节剂类型/组合、不同培养基培养时间等重要因素进行了优化。在试验的基础培养基中,Nitsch在MI和MII培养基中原生质体的生长效果最好。对于原生质体生长早期细胞壁的形成,相对较高的生长素浓度(0.5 mg L-1 NAA和2,4- d)在不添加细胞分裂素的情况下可以维持原生质体的活力。细胞壁形成后,1.1 mg L-1 TDZ与0.05 mg L-1 NAA或2,4- d联合可有效促进原生质体生长。在固体芽诱导培养基上,不添加生长素的1.1 mg L-1 TDZ可使芽产生频率达到80%以上。在MII培养基中较长的培养时间会抑制原生质体的生长,而在MII培养基中较长的培养时间会显著延迟芽的形成。利用这种优化的原生质体再生方案,我们建立了一种高效的peg介导的转染方案,使用含有GFP基因的载体,转染效率为50-80%。这一高效的原生质体方案将有助于通过基因组编辑进一步对大田水韭进行遗传改良,并有利于相关植物原生质体再生方案的制定。
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
CiteScore
7.00
自引率
0.00%
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审稿时长
13 weeks
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