Genome editing in rice mediated by miniature size Cas nuclease SpCas12f.

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Frontiers in genome editing Pub Date : 2023-01-01 DOI:10.3389/fgeed.2023.1138843
Satoru Sukegawa, Osamu Nureki, Seiichi Toki, Hiroaki Saika
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引用次数: 1

Abstract

Cas9 derived from Streptococcus pyogenes (SpCas9) is used widely in genome editing using the CRISPR-Cas system due to its high activity, but is a relatively large molecule (1,368 amino acid (a.a.) residues). Recently, targeted mutagenesis in human cells and maize using Cas12f derived from Syntrophomonas palmitatica (SpCas12f)-a very small Cas of 497 a.a, which is a more suitable size for virus vectors-was reported. However, there are no reports of genome editing using SpCas12f in crops other than maize. In this study, we applied SpCas12f to genome editing in rice-one of the most important staple crops in the world. An expression vector encoding rice codon-optimized SpCas12f and sgRNA for OsTubulin as a target was introduced into rice calli by Agrobacterium-mediated transformation. Molecular analysis of SpCas12f-transformed calli showed that mutations were introduced successfully into the target region. Detailed analysis by amplicon sequencing revealed estimated mutation frequencies (a ratio of the number of mutated calli to that of SpCas12f-transformed calli) of 28.8% and 55.6% in two targets. Most mutation patterns were deletions, but base substitutions and insertions were also confirmed at low frequency. Moreover, off-target mutations by SpCas12f were not found. Furthermore, mutant plants were regenerated successfully from the mutated calli. It was confirmed that the mutations in the regenerated plants were inherited to the next-generation. In the previous report in maize, mutations were introduced by treatment with heat shock at 45°C for 4 h per day for 3 days; no mutations were introduced under normal growth conditions at 28°C. Surprisingly, however, mutations can be introduced without heat-shock treatment in rice. This might be due to the culture conditions, with relatively higher temperature (30°C or higher) and constant light during callus proliferation. Taken together, we demonstrated that SpCas12f can be used to achieve targeted mutagenesis in rice. SpCas12f is thus a useful tool for genome editing in rice and is suitable for virus vector-mediated genome editing due to its very small size.

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微型Cas核酸酶SpCas12f介导的水稻基因组编辑
源自化脓性链球菌(Streptococcus pyogenes, SpCas9)的Cas9因其高活性而广泛应用于CRISPR-Cas系统的基因组编辑中,但其分子相对较大(1368个氨基酸(a.a)残基)。最近报道了利用棕榈合单胞菌(Syntrophomonas palmitatica)衍生的Cas12f (SpCas12f)在人类细胞和玉米中进行靶向诱变的研究。SpCas12f是一种非常小的cas497 a.a,更适合病毒载体的大小。然而,目前还没有在玉米以外的作物中使用SpCas12f进行基因组编辑的报道。在本研究中,我们将SpCas12f应用于水稻(世界上最重要的主要作物之一)的基因组编辑。通过农杆菌介导转化,将编码水稻密码子优化的SpCas12f和OsTubulin的sgRNA的表达载体导入水稻愈伤组织。对转化spcas12f的愈伤组织的分子分析表明,突变被成功地引入到靶区。扩增子测序的详细分析显示,两个靶标的突变频率(突变愈伤组织数量与转化spcas12f的愈伤组织数量之比)分别为28.8%和55.6%。大多数突变模式是缺失,但碱基替换和插入也在低频率被证实。此外,未发现SpCas12f脱靶突变。此外,从突变的愈伤组织中成功地再生了突变植株。结果证实,再生植株的突变遗传给了下一代。在之前的玉米报告中,突变是通过在45°C下每天4小时,持续3天的热休克处理引入的;在28°C的正常生长条件下未引入突变。然而,令人惊讶的是,突变可以在没有热休克处理的情况下引入水稻。这可能与愈伤组织增殖过程中相对较高的温度(30°C或更高)和恒定的光照条件有关。综上所述,我们证明了SpCas12f可以用于水稻的靶向诱变。因此,SpCas12f是一种有用的水稻基因组编辑工具,由于其非常小的尺寸,适合于病毒载体介导的基因组编辑。
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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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