Zhang Chen, Zhong Xue, Li Shaoya, Yan Lei, Li Jingying, He Yubing, Lin Yong, Zhang Yangjun, Xia Lanqin
Institute of Crop Sciences (ICS), Chinese Academy of Agricultural Sciences (CAAS), Beijing, 100081, China.
CAAS/Hainan Yazhou Bay Seed Laboratory, National Nanfan Research Institute (Sanya), Sanya, 572024, China.
J Integr Plant Biol. 2023 Sep;65(9):2194-2203. doi: 10.1111/jipb.13543. Epub 2023 Jul 27.
Exploiting novel endogenous glyphosate-tolerant alleles is highly desirable and has promising potential for weed control in rice breeding. Here, through fusions of different effective cytosine and adenine deaminases with nCas9-NG, we engineered an effective surrogate two-component composite base editing system, STCBE-2, with improved C-to-T and A-to-G base editing efficiency and expanded the editing window. Furthermore, we targeted a rice endogenous OsEPSPS gene for artificial evolution through STCBE-2-mediated near-saturated mutagenesis. After hygromycin and glyphosate selection, we identified a novel OsEPSPS allele with an Asp-213-Asn (D213N) mutation (OsEPSPS-D213N) in the predicted glyphosate-binding domain, which conferred rice plants reliable glyphosate tolerance and had not been reported or applied in rice breeding. Collectively, we developed a novel dual base editor which will be valuable for artificial evolution of important genes in crops. And the novel glyphosate-tolerant rice germplasm generated in this study will benefit weeds management in rice paddy fields.
利用新的内源性抗草甘膦等位基因非常可取,在水稻育种中进行杂草控制具有广阔的潜力。在这里,通过将不同的有效胞嘧啶和腺嘌呤脱氨酶与nCas9-NG融合,我们构建了一个有效的替代双组分复合碱基编辑系统STCBE-2,提高了C到T和A到G的碱基编辑效率,并扩大了编辑窗口。此外,我们通过STCBE-2介导的近饱和诱变对水稻内源性OsEPSPS基因进行人工进化。经过潮霉素和草甘膦筛选,我们在预测的草甘膦结合结构域中鉴定出一个具有Asp-213-Asn(D213N)突变的新OsEPSPS等位基因(OsEPSPS-D213N),该等位基因赋予水稻植株可靠的草甘膦耐受性,且尚未在水稻育种中报道或应用。总体而言,我们开发了一种新型双碱基编辑器,这将对作物重要基因的人工进化具有重要价值。并且本研究中产生的新型抗草甘膦水稻种质将有利于稻田杂草管理。
