Beyond CRISPR: single base editors for human health and crop improvement

被引:5
|
作者
Gupta, P. K. [1 ]
机构
[1] Ch Charan Singh Univ, Dept Genet & Plant Breeding, Meerut 250004, Uttar Pradesh, India
来源
CURRENT SCIENCE | 2019年 / 116卷 / 03期
关键词
AID/APOBEC; base editing; CRISPR/Cas9; cytidine/adenine deaminases; target AID; GENOMIC DNA; TARGET BASE; RICE; NUCLEASES; VARIANTS; MAIZE;
D O I
10.18520/cs/v116/i3/386-397
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
During 2016-2018, CRISPR/Cas9 technology was modified using disabled Cas9 with nickase activity in combination with cytosine/adenine deaminases for the development of four generations of cytosine base editors (BE1-BE4) for C -> U conversion and at least seven generations of adenine base editors (ABE1-ABE7) for A -> I conversion. These base editors exhibited improved efficiency and reduced frequency of deletions among the products. Further improvement in the form of enhanced base editors and high-fidelity base editors was achieved through the use of 1-3 copies of uracil N-glycosylase inhibitors and phage Mu-Gam protein. The technology will bring precision to gene editing technology for human healthcare and crop improvement.
引用
收藏
页码:386 / 397
页数:12
相关论文
共 50 条
  • [41] CRISPR/Cas9: efficient and emerging scope for Brassica crop improvement
    Shiv Shankar Sharma
    Ashwani Pandey
    Anamika Kashyap
    Lakshay Goyal
    Pooja Garg
    Ranjeet Kushwaha
    Jyoti Sharma
    Shikha Tripathi
    Sujata Kumari
    George Thomas
    Malkhey Verma
    Navin C. Gupta
    Ashish Kumar Gupta
    Ramcharan Bhattacharya
    Sandhya Sharma
    Mahesh Rao
    Planta, 2025, 262 (1)
  • [42] Revisiting CRISPR/Cas-mediated crop improvement: Special focus on nutrition
    Tanushri Kaul
    Sonia Khan Sony
    Rachana Verma
    Khaled Fathy Abdel Motelb
    Arul T Prakash
    Murugesh Eswaran
    Jyotsna Bharti
    Mamta Nehra
    Rashmi Kaul
    Journal of Biosciences, 2020, 45
  • [43] An efficient CRISPR-Cas12a promoter editing system for crop improvement
    Zhou, Jianping
    Liu, Guanqing
    Zhao, Yuxin
    Zhang, Rui
    Tang, Xu
    Li, Ling
    Jia, Xinyu
    Guo, Yachong
    Wu, Yuechao
    Han, Yangshuo
    Bao, Yu
    He, Yao
    Han, Qinqin
    Yang, Han
    Zheng, Xuelian
    Qi, Yiping
    Zhang, Tao
    Zhang, Yong
    NATURE PLANTS, 2023, 9 (04) : 588 - +
  • [44] Risk Prediction of RNA Off-Targets of CRISPR Base Editors in Tissue-Specific Transcriptomes Using Language Models
    Nakamae, Kazuki
    Suzuki, Takayuki
    Yonezawa, Sora
    Yamamoto, Kentaro
    Kakuzaki, Taro
    Ono, Hiromasa
    Naito, Yuki
    Bono, Hidemasa
    INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2025, 26 (04)
  • [45] Functional Assessment of BRCA1 variants using CRISPR-Mediated Base Editors
    See, Ji-Eun
    Shin, Ha Rim
    Jang, Gayoung
    Kweon, Jiyeon
    Kim, Yongsub
    JOVE-JOURNAL OF VISUALIZED EXPERIMENTS, 2021, (168):
  • [46] Applications of CRISPR/Cas to Improve Crop Disease Resistance: Beyond Inactivation of Susceptibility Factors
    Schenke, Dirk
    Cai, Daguang
    ISCIENCE, 2020, 23 (09)
  • [47] Single-Base Resolution: Increasing the Specificity of the CRISPR-Cas System in Gene Editing
    Rabinowitz, Roy
    Offen, Daniel
    MOLECULAR THERAPY, 2021, 29 (03) : 937 - 948
  • [48] Increasing the efficiency and targeting range of cytidine base editors through fusion of a single-stranded DNA-binding protein domain
    Zhang, Xiaohui
    Chen, Liang
    Zhu, Biyun
    Wang, Liren
    Chen, Caiyu
    Hong, Mengjia
    Huang, Yifan
    Li, Huiying
    Han, Honghui
    Cai, Bailian
    Yu, Weishi
    Yin, Shuming
    Yang, Lei
    Yang, Zuozhen
    Liu, Meizhen
    Zhang, Ying
    Mao, Zhiyong
    Wu, Yuxuan
    Liu, Mingyao
    Li, Dali
    NATURE CELL BIOLOGY, 2020, 22 (06) : 740 - +
  • [49] Strategies for single base gene editing in an immortalized human cell line by CRISPR/Cas9 technology
    Alda Corrado
    Romina Aceto
    Simona Miglietta
    Roberto Silvestri
    Irene Dell’Anno
    Irene Lepori
    Benedetta Ricci
    Cristina Romei
    Roberto Giovannoni
    Laura Poliseno
    Monica Evangelista
    Marianna Vitiello
    Monica Cipollini
    Rossella Elisei
    Stefano Landi
    Federica Gemignani
    3 Biotech, 2024, 14
  • [50] Strategies for single base gene editing in an immortalized human cell line by CRISPR/Cas9 technology
    Corrado, Alda
    Aceto, Romina
    Miglietta, Simona
    Silvestri, Roberto
    Dell'Anno, Irene
    Lepori, Irene
    Ricci, Benedetta
    Romei, Cristina
    Giovannoni, Roberto
    Poliseno, Laura
    Evangelista, Monica
    Vitiello, Marianna
    Cipollini, Monica
    Elisei, Rossella
    Landi, Stefano
    Gemignani, Federica
    3 BIOTECH, 2024, 14 (02)
12345