Department of Horticulture, College of Agriculture and Biotechnology, Zhejiang University, Hangzhou, China.
Department of Plant Science and Landscape Architecture, University of Maryland, College Park, MD, USA.
Nat Protoc. 2023 Jun;18(6):1760-1794. doi: 10.1038/s41596-023-00823-w. Epub 2023 Apr 21.
CRISPR-Cas nuclease systems, base editors, and CRISPR activation have greatly advanced plant genome engineering. However, the combinatorial approaches for multiplexed orthogonal genome editing and transcriptional regulation were previously unexploited in plants. We have recently established a single Cas9 protein-based CRISPR-Combo platform, enabling efficient multiplexed orthogonal genome editing (double-strand break-mediated genome editing or base editing) and transcriptional activation in plants via engineering the single guide RNA (sgRNA) structure. Here, we provide step-by-step instructions for constructing CRISPR-Combo systems for speed breeding of transgene-free, genome-edited Arabidopsis plants and enhancing rice regeneration with more heritable targeted mutations in a hormone-free manner. We also provide guidance on designing efficient sgRNA, Agrobacterium-mediated transformation of Arabidopsis and rice, rice regeneration without exogenous plant hormones, gene editing evaluation and visual identification of transgene-free Arabidopsis plants with high editing activity. With the use of this protocol, it takes ~2 weeks to establish the CRISPR-Combo systems, 4 months to obtain transgene-free genome-edited Arabidopsis plants and 4 months to obtain rice plants with enrichment of heritable targeted mutations by hormone-free tissue culture.
CRISPR-Cas 核酸酶系统、碱基编辑器和 CRISPR 激活大大促进了植物基因组工程。然而,以前在植物中尚未开发用于多重正交基因组编辑和转录调控的组合方法。我们最近建立了一个基于单个 Cas9 蛋白的 CRISPR-Combo 平台,通过工程化单指导 RNA(sgRNA)结构,能够在植物中高效进行多重正交基因组编辑(双链断裂介导的基因组编辑或碱基编辑)和转录激活。在这里,我们提供了构建用于无转基因、基因组编辑的拟南芥植物快速繁殖的 CRISPR-Combo 系统的分步说明,并以无激素的方式增强水稻的再生,获得更多可遗传的靶向突变。我们还提供了关于设计高效 sgRNA、农杆菌介导的拟南芥和水稻转化、无外源植物激素的水稻再生、基因编辑评估以及具有高编辑活性的无转基因拟南芥植物的可视化鉴定的指导。使用本方案,建立 CRISPR-Combo 系统需要大约 2 周,获得无转基因基因组编辑的拟南芥植物需要 4 个月,通过无激素组织培养获得具有丰富可遗传靶向突变的水稻植物需要 4 个月。
