Graduate School of Life and Environmental Sciences, University of Tsukuba, Tsukuba, 305-8572, Japan.
Graduate School of Science, Technology and Innovation, Kobe University, Kobe, 657-8501, Japan.
Plant Cell Rep. 2021 Apr;40(4):667-676. doi: 10.1007/s00299-021-02662-z. Epub 2021 Feb 7.
Base editing in tomatoes was achieved by transient expression. The Solanaceae plants, particularly the tomato (Solanum lycopersicum), is of huge economic value worldwide. The tomato is a unique model plant for studying the functions of genes related to fruit ripening. Deeper understanding of tomatoes is of great importance for both plant research and the economy. Genome editing technology, such as CRISPR/Cas9, has been used for functional genetic research. However, some challenges, such as low transformation efficiency, remain with this technology. Moreover, the foreign Cas9 and gRNA expression cassettes must be removed to obtain null-segregants In this study, we used a high-level transient expression system to improve the base editing technology. A high-level transient expression system has been established previously using geminiviral replication and a double terminator. The pBYR2HS vector was used for this transient expression system. nCas9-CDA and sgRNA-SlHWS were introduced into this vector, and the protein and RNA were then transiently expressed in tomato tissues by agroinfiltration. The homozygous mutant produced by base editing was obtained in the next generation with an efficiency of about 18%. nCas9-free next-generation plants were 71%. All the homozygous base-edited plants in next generation are nCas9-free. These findings show that the high-level transient expression system is useful for base editing in tomatoes.
番茄的碱基编辑是通过瞬时表达来实现的。茄科植物,尤其是番茄(Solanum lycopersicum),在全球范围内具有巨大的经济价值。番茄是研究与果实成熟相关的基因功能的独特模式植物。深入了解番茄对植物研究和经济都具有重要意义。基因组编辑技术,如 CRISPR/Cas9,已被用于功能遗传研究。然而,该技术仍存在一些挑战,如转化效率低。此外,必须去除外来的 Cas9 和 gRNA 表达盒才能获得纯合子分离体。在本研究中,我们使用高水平瞬时表达系统来改进碱基编辑技术。先前已经建立了一个使用双末端的基于双生病毒复制的高水平瞬时表达系统。pBYR2HS 载体用于此瞬时表达系统。nCas9-CDA 和 sgRNA-SlHWS 被引入该载体,然后通过农杆菌浸润在番茄组织中瞬时表达蛋白和 RNA。通过碱基编辑产生的纯合突变体在下一代中的效率约为 18%。无 nCas9 的下一代植物的效率为 71%。下一代所有的纯合碱基编辑植物都不含 nCas9。这些发现表明,高水平瞬时表达系统可用于番茄的碱基编辑。
