<p>Gene editing technology continues to advance, and the range of available editing tools is steadily expanding. Recently, several compact and ultracompact systems have been developed, gaining considerable attention because their components can be efficiently packaged into viral vectors. To identify compact tools suitable for efficient genome editing in citrus, Casπ, CoCas9, along with their respective single guide RNAs, were synthesized, and CRISPR/Casπ and CRISPR/CoCas9 constructs were designed to assess their editing efficiency in ‘Wanjincheng’ orange (<i>Citrus sinensis</i> Osbeck). The Casπ was able to mediate genome editing in the citrus genome, although with low efficiency. In comparison, CoCas9 showed a transformation efficiency three times higher than that of the widely used SpCas9. Moreover, while the gene editing efficiency of CoCas9 was comparable to that of SpCas9, the significantly elevated transformation efficiency resulted in a significantly higher overall editing efficiency for CoCas9 relative to SpCas9. Mutation profiles generated by CoCas9 and SpCas9 were highly similar, and both nucleases displayed comparable target specificity at three potential off-target sites. These results indicate that Casπ is not suitable for application in citrus genome editing, whereas CoCas9 represents a promising alternative to SpCas9 for efficient and precise genome modification in citrus.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Application of compact CRISPR/Cas nucleases for citrus genome editing

  • Yulong Zhu,
  • Jingyu Zhang,
  • Yunqiang Ruan,
  • Tiangang Lei,
  • Shunxin Li,
  • Li Cao,
  • Xiuping Zou,
  • Yongrui He,
  • Qiang Li,
  • Shanchun Chen,
  • Aihong Peng

摘要

Gene editing technology continues to advance, and the range of available editing tools is steadily expanding. Recently, several compact and ultracompact systems have been developed, gaining considerable attention because their components can be efficiently packaged into viral vectors. To identify compact tools suitable for efficient genome editing in citrus, Casπ, CoCas9, along with their respective single guide RNAs, were synthesized, and CRISPR/Casπ and CRISPR/CoCas9 constructs were designed to assess their editing efficiency in ‘Wanjincheng’ orange (Citrus sinensis Osbeck). The Casπ was able to mediate genome editing in the citrus genome, although with low efficiency. In comparison, CoCas9 showed a transformation efficiency three times higher than that of the widely used SpCas9. Moreover, while the gene editing efficiency of CoCas9 was comparable to that of SpCas9, the significantly elevated transformation efficiency resulted in a significantly higher overall editing efficiency for CoCas9 relative to SpCas9. Mutation profiles generated by CoCas9 and SpCas9 were highly similar, and both nucleases displayed comparable target specificity at three potential off-target sites. These results indicate that Casπ is not suitable for application in citrus genome editing, whereas CoCas9 represents a promising alternative to SpCas9 for efficient and precise genome modification in citrus.