Fusion of a rice endogenous N-methylpurine DNA glycosylase to a plant adenine base transition editor ABE8e enables A-toK base editing in rice plants

导出

摘要 Engineering of a new type of plant base editor for simultaneous adenine transition and transversion within the editing window will greatly expand the scope and potential of base editing in directed evolution and crop improvement.Here,we isolated a rice endogenous hypoxanthine excision protein,N-methylpurine DNA glycosylase(OsMPG),and engineered two plant A-to-K(K=G or T)base editors,rAKBE01 and rAKBE02,for simultaneous adenine transition and transversion base editing in rice by fusing OsMPG or its mutant mOsMPG to a plant adenine transition base editor,ABE8e.We further coupled either OsMPG or mOsMPG with a transactivation factor VP64 to generate rAKBE03 and rAKBE04,respectively.Testing these four rAKBEs,at five endogenous loci in rice protoplasts,indicated that rAKBE03 and rAKBE04 enabled higher levels of A-to-G base transitions when compared to ABE8e and ABE8e-VP64.Furthermore,whereas rAKBE01 only enabled A-to-C/T editing at one endogenous locus,in comparison with rAKBE02 and rAKBE03,rAKBE04 could significantly improve the A-to-C/T base transversion efficiencies by up to 6.57-and 1.75-fold in the rice protoplasts,respectively.Moreover,although no stable lines with A-to-C transversion were induced by rAKBE01 and rAKBE04,rAKBE04 could enable simultaneous A-to-G and A-to-T transition and transversion base editing,at all the five target loci,with the efficiencies of A-to-G transition and A-to-T transversion editing ranging from 70.97 to 92.31%and 1.67 to 4.84%in rice stable lines,respectively.Together,these rAKBEs enable different portfolios of editing products and,thus,now expands the potential of base editing in diverse application scenario for crop improvement.

作者 Yucai Li Shaoya Li Chenfei Li Chen Zhang Lei Yan Jingying Li Yubing He Yan Guo Lanqin Xia

机构地区 Institute of Crop Sciences(ICS) State Key Laboratory of Plant Physiology and Biochemistry Hainan Yazhou Bay Seed Laboratory/National Nanfan Research Institute(Sanya)

出处《aBIOTECH》 EI CAS CSCD 2024年第2期127-139,共13页 生物技术通报（英文版）

基金 funded by the National Natural Science Foundation of China(Grant No.32188102 to L.X),Hainan Yazhou Bay Seed Lab(Grant No.B23CJ0208 to L.X) the Central Public-interest Scientific Institution Basal Research Fund(Grant No.ZDXM2308 to L.X) National Engineering Research Centre of Crop Molecular Breeding.

关键词 Rice(Oryza sativa L) Rice N-methylpurine DNA glycosylase(OsMPG) A-to-K base editor(AKBE) Transactivation module VP64

分类号 S511 [农业科学—作物学]

引文网络
相关文献

参考文献19

1Yongjie Kuang,Shaofang Li,Bin Ren,Fang Yan,Carl Spetz,Xiangju Li,Xueping Zhou,Huanbin Zhou.Base-Editing-Mediated Artificial Evolution of OsALS1 In Planta to Develop Novel Herbicide-Tolerant Rice Germplasms[J].Molecular Plant,2020,13(4):565-572. 被引量：50
2Jingying Li,Yongwei Sun,Jinlu Du,Yunde Zhao,Lanqin Xia.Generation of Targeted Point Mutations in Rice by a Modified CRISPR/Cas9 System[J].Molecular Plant,2017,10(3):526-529. 被引量：78
3Shaoya Li,Chen Zhang,Jingying Li,Lei Yan,Ning Wang,Lanqin Xia.Present and future prospects for wheat improvement through genome editing and advanced technologies[J].Plant Communications,2021,2(4):100-115. 被引量：7
4Jingying Li,Chen Zhang,Yubing He,Shaoya Li,Lei Yan,Yucai Li,Ziwei Zhu,Lanqin Xia.Plant base editing and prime editing:The current status and future perspectives[J].Journal of Integrative Plant Biology,2023,65(2):444-467. 被引量：9
5Yucai Li,Shaoya Li,Chenfei Li,Chen Zhang,Lei Yan,Jingying Li,Yubing He,Yan Guo,Yong Lin,Yangjun Zhang,Lanqin Xia.Engineering a plant A-to-K base editor with improved performance by fusion with a transactivation module[J].Plant Communications,2023,4(6):225-229. 被引量：3
6Weizhi Liu,Xianrong Xie,Xingliang Ma,Jun Li,Jiehu Chen,Yao-Guang Liu.DSDecode： A Web-Based Tool for Decoding of Sequencing Chromatograms for Genotyping of Targeted Mutations[J].Molecular Plant,2015,8(9):1431-1433. 被引量：72
7Qing Liu,Chun Wang,Xiaozhen Jiao,Huawei Zhang,Lili Song,Yanxin Li,Caixia Gao,Kejian Wang.Hi-TOM: a platform for high-throughput tracking of mutations induced by CRISPR/Cas systems[J].Science China(Life Sciences),2019,62(1):1-7. 被引量：64
8Yuming Lu,Jian-Kang Zhu.Precise Editing of a Target Base in the Rice Senome Using a Modified CRISPR/Cas9 System[J].Molecular Plant,2017,10(3):523-525. 被引量：92
9Bin Ren,Lang Liu,Shaofang Li,Yongjie Kuang,Jingwen Wang,Dawei Zhang,Xueping Zhou,Honghui Lin,Huanbin Zhou.Cas9-NG Greatly Expands the Targeting Scope of the Genome-Editing Toolkit by Recognizing NG and Other Atypical PAMs in Rice[J].Molecular Plant,2019,12(7):1015-1026. 被引量：23
10Lianguang Shang,Xiaoxia Li,Huiying He,Qiaoling Yuan,Yanni Song,Zhaoran Wei,Hai Lin,Min Hu,Fengli Zhao,Chao Zhang,Yuhua Li,Hongsheng Gao,Tianyi Wang,Xiangpei Liu,Hong Zhang,Ya Zhang,Shuaimin Cao,Xiaoman Yu,Bintao Zhang,Yong Zhang,Yiqing Tan,Mao Qin,Cheng Ai,Yingxue Yang,Bin Zhang,Zhiqiang Hu,Hongru Wang,Yang Lv,Yuexing Wang,Jie Ma,Quan Wang,Hongwei Lu,Zhe Wu,Shanlin Liu,Zongyi Sun,Hongliang Zhang,Longbiao Guo,Zichao Li,Yongfeng Zhou,Jiayang Li,Zuofeng Zhu,Guosheng Xiong,Jue Ruan,Qian Qian.A super pan-genomic landscape of rice[J].Cell Research,2022,32(10):878-896. 被引量：14

二级参考文献92

1Cong, L., Ran, F.A., Cox, D., Lin, S., Barretto, R., Habib, N., Hsu, P.D., Wu, X., Jiang, W., Marraffini, L.A., et al. (2013). Multiplex genome engineering using CRISPR/Cas systems. Science 339:819-823.
2Feng, Z., Mao, Y., Xu, N., Zhang, B., Wei, P., Yang, D.L., Wang, Z., Zhang, Z., Zheng, R., Yang, L., et al. (2014). Multigeneration analysis reveals the inheritance, specificity, and patterns of CRISPR/ Cas-induced gene modifications in Arabidopsis. Proc. Natl. Acad. Sci. USA 111:4632-4637.
3Li, T., Liu, B., Spalding, M.H., Weeks, D.P., and Yang, B. (2012). High- efficiency TALEN-based gene editing produces disease-resistant rice. Nat. Biotechnol. 30:390-392.
4Li, J.F., Norville, J.E., Aach, J., McCormack, M., Zhang, D., Bush, J., Church, G.M., and Sheen, J. (2013). Multiplex and homologous recombination-mediated genome editing in Arabidopsis and Nicotiana benthamiana using guide RNA and Cas9. Nat. Biotechnol. 31:688--691.
5Ma, X., Chen, L., Zhu, Q., and Liu, Y. (2015a). Rapid decoding of sequence-specific nuclease-induced heterozygous and biallelic mutations by direct sequencing of PCR products. Mol. Plant http:// dx.doi.org/10.1016/j.molp.2015.02.012.
6Ma, X., Zhang, Q., Zhu, Q., Liu, W., Chen, Y., Qiu, R., Wang, B., Yang, Z., Li, H., Lin, Y., et al. (2015b). A robust CRISPR/Cas9 system for convenient, high-efficiency multiplex genome editing in monocot and dicot plants. Mol. Plant http://dx.doi.org/10.1016/j.molp.2015.04.007.
7Zhang, H., Zhang, J., Wei, P., Zhang, B., Gou, F., Feng, Z., Mao, Y., Yang, L., Zhang, H., Xu, N., et al. (2014). The CRISPR/Cas9 system produces specific and homozygous targeted gene editing in rice in one generation. Plant Biotechnol. J. 12:797-807.
8Zhang, H., Gou, F., Zhang, J., Liu, W., Li, Q., Mao, Y., Botella, J.R., and Zhu, J.-K. (2015). TALEN-mediated targeted mutagenesis produces a large variety of heritable mutations in rice. Plant Biotechnol. J. http:// dx.doi.org/10.1111/pbi.12372.
9Xin-Jian He,Taiping Chen,Jian-Kang Zhu.Regulation and function of DNA methylation in plants and animals[J].Cell Research,2011,21(3):442-465. 被引量：57
10Albert W Cheng,Haoyi Wang,Hui Yang,Linyu Shi,Yarden Katz,Thorold W Theunissen,Sudharshan Rangarajan,Chikdu S Shivalila,Daniel B Dadon,Rudolf Jaenisch.Multiplexed activation of endogenous genes by CRISPR-on, an RNA-guided transcriptional activator system[J].Cell Research,2013,23(10):1163-1171. 被引量：68

共引文献330

1闫磊,李晶莹,李慧园,夏兰琴.农作物基因编辑科技研发及应用[J].中国基础科学,2022(6):9-18. 被引量：1
2李洪杰,陈明,李少雅,张立超,谢永盾,郝元峰,马有志.小麦生物育种:进展、机遇和挑战[J].中国基础科学,2022(4):1-8. 被引量：7
3刘旭,仲祉霖,钟涛.碱基编辑器的研发及其应用[J].中国细胞生物学学报,2022,44(12):2294-2304. 被引量：2
4陈珏,黄佳敏,燕天鹤,彭晓宇,林峻.随机突变文库构建与筛选研究进展[J].生物工程学报,2021,37(1):163-177. 被引量：5
5Shiwei Bai,Hong Yu,Bing Wang,Jiayang Li.Retrospective and perspective of rice breeding in China[J].Journal of Genetics and Genomics,2018,45(11):603-612. 被引量：21
6Chenxiao Xue,Huawei Zhang,Qiupeng Lin,Rong Fan,Caixia Gao.Manipulating mRNA splicing by base editing in plants[J].Science China(Life Sciences),2018,61(11):1293-1300. 被引量：19
7王美娜,彭静静,王凯婕,安文静,刘亚菲,李珂嘉,梁卫红.利用CRISPR/Cas9技术编辑水稻ROP基因OsRac5[J].中国生物化学与分子生物学报,2018,34(12):1350-1357. 被引量：4
8Jochen Kumlehn,Janine Pietralla,Goetz Hensel,Michael Pacher,Holger Puchta.The CRISPR/Cas revolution continues: From efficient gene editing for crop breeding to plant synthetic biology[J].Journal of Integrative Plant Biology,2018,60(12):1127-1153. 被引量：10
9张强,罗能杰,韦圣博,金健.基于CRISPR/Cas9技术对水稻ALOG家族成员的基因敲除突变体的构建[J].分子植物育种,2019,17(3):834-840. 被引量：4
10马兴亮,刘耀光.植物CRISPR/Cas9基因组编辑系统与突变分析[J].遗传,2016,38(2):118-125. 被引量：19

1Xuemei Wu,Bin Ren,Lang Liu,Shengqun Qiu,Xin’ge Li,Peijing Li,Fang Yan,Honghui Lin,Xueping Zhou,Dawei Zhang,Huanbin Zhou.Adenine base editor incorporating the N-methylpurine DNA glycosylase MPGv3 enables efficient A-to-K base editing in rice[J].Plant Communications,2023,4(6):230-233. 被引量：6
2Mohammad Reza Boorboori,Husen Qiu,Jieyun Liu,Haiyang Zhang.Application of Silicon and Selenium in Rice for Reducing Cadmium Stress[J].Phyton-International Journal of Experimental Botany,2023,92(6):1873-1886.
3Yang Feng,Sheng-Jun Chen,Bi-Feng Yuan.Recent Advances in Deciphering the Mechanisms and Biological Functions of DNA Demethylation[J].Chinese Journal of Chemistry,2024,42(6):645-651.
4杨帅朋,屈子啸,朱向星,唐冬生.DNA碱基编辑技术的研究进展及在猪基因修饰中的应用[J].生物技术通报,2024,40(1):127-144.
5Shenglan Gao,Lujun Chen,Ziying Lin,Zhiliang Xu,Yahong Wang,Huayu Ling,Zijun Wu,Yu Yin,Weimin Yao,Keng Wu,Gang Liu.8-Oxoguanine DNA glycosylase protects cells from senescence via the p53-p21 pathway[J].Acta Biochimica et Biophysica Sinica,2024,56(2):184-198.
6Chen Zhang,Xue Zhong,Shaoya Li,Lei Yan,Jingying Li,Yubing He,Yong Lin,Yangjun Zhang,Lanqin Xia.Artificial evolution of OsEPSPS through an improved dual cytosine and adenine base editor generated a novel allele conferring rice glyphosate tolerance[J].Journal of Integrative Plant Biology,2023,65(9):2194-2203. 被引量：6
7张庆洲,陈建设,孙自学,陈雨,张宸铭.槲皮素改善苯并(a)芘致雄性大鼠生殖功能损伤的机制研究[J].中医学报,2024,39(2):375-382.
8Long Chen,Guanqing Liu,Tao Zhang.Integrating machine learning and genome editing for crop improvement[J].aBIOTECH,2024,5(2):262-277.
9Lei Zhao,Haifei Hu,Junyu Chen,Chongrong Wang,Yibo Chen,Hong Li,Daoqiang Huang,Zhidong Wang,Degui Zhou,Rong Gong,Yangyang Pan,Junliang Zhao,Liangyong Ma,Shaochuan Zhou.A 9.5-kb deletion in the 1st intron of OsMADS51 enhances temperature sensitivity in rice[J].The Crop Journal,2024,12(4):1031-1040. 被引量：1
10张小强,樊洁,杨吉飞,付竞生,吴梦丽,邵程祥,关贵全,殷宏,刘志杰,牛庆丽.DNA损伤修复酶OGG1/MTH1抑制剂对非洲猪瘟病毒复制的影响[J].生物工程学报,2024,40(7):2136-2149. 被引量：1

aBIOTECH

2024年第2期

浏览历史

内容加载中请稍等...

Fusion of a rice endogenous N-methylpurine DNA glycosylase to a plant adenine base transition editor ABE8e enables A-toK base editing in rice plants

参考文献19

二级参考文献92

共引文献330

相关作者

相关机构

相关主题

浏览历史