Systematic evaluation of CRISPR-Cas systems reveals design principles for genome editing in human cells

被引:0
|
作者
Yuanming Wang
Kaiwen Ivy Liu
Norfala-Aliah Binte Sutrisnoh
Harini Srinivasan
Junyi Zhang
Jia Li
Fan Zhang
Charles Richard John Lalith
Heyun Xing
Raghuvaran Shanmugam
Jia Nee Foo
Hwee Ting Yeo
Kean Hean Ooi
Tore Bleckwehl
Yi Yun Rachel Par
Shi Mun Lee
Nur Nadiah Binte Ismail
Nur Aidah Binti Sanwari
Si Ting Vanessa Lee
Jan Lew
Meng How Tan
机构
[1] School of Chemical and Biomedical Engineering,
[2] Nanyang Technological University,undefined
[3] Genome Institute of Singapore,undefined
[4] Agency for Science Technology and Research,undefined
[5] School of Biological Sciences,undefined
[6] Nanyang Technological University,undefined
[7] Lee Kong Chian School of Medicine,undefined
[8] Nanyang Technological University,undefined
[9] School of Applied Science,undefined
[10] Republic Polytechnic,undefined
[11] School of Life Sciences and Chemical Technology,undefined
[12] Ngee Ann Polytechnic,undefined
来源
Genome Biology | / 19卷
关键词
CRISPR; Genome editing; Non-homologous end joining (NHEJ); Homology-directed repair (HDR); Cas9 nucleases; Cpf1 nucleases;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [1] Systematic evaluation of CRISPR-Cas systems reveals design principles for genome editing in human cells
    Wang, Yuanming
    Liu, Kaiwen Ivy
    Sutrisnoh, Norfala-Aliah Binte
    Srinivasan, Harini
    Zhang, Junyi
    Li, Jia
    Zhang, Fan
    Lalith, Charles Richard John
    Xing, Heyun
    Shanmugam, Raghuvaran
    Foo, Jia Nee
    Yeo, Hwee Ting
    Ooi, Kean Hean
    Bleckwehl, Tore
    Par, Yi Yun Rachel
    Lee, Shi Mun
    Ismail, Nur Nadiah Binte
    Sanwari, Nur Aidah Binti
    Lee, Si Ting Vanessa
    Lew, Jan
    Tan, Meng How
    GENOME BIOLOGY, 2018, 19
  • [2] CRISPR-Cas systems for genome editing of mammalian cells
    Mani, Indra
    Arazoe, Takayuki
    Singh, Vijai
    REPROGRAMMING THE GENOME: CRISPR-CAS-BASED HUMAN DISEASE THERAPY, 2021, 181 : 15 - 30
  • [3] Harnessing CRISPR-Cas systems for bacterial genome editing
    Selle, Kurt
    Barrangou, Rodolphe
    TRENDS IN MICROBIOLOGY, 2015, 23 (04) : 225 - 232
  • [4] Development of CRISPR-Cas systems for genome editing and beyond
    Zhang, F.
    QUARTERLY REVIEWS OF BIOPHYSICS, 2019, 52
  • [5] CRISPR-Cas Systems and Genome Editing: Beginning the Era of CRISPR/Cas Therapies for Humans
    Karpov, Dmitry S.
    INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2024, 25 (10)
  • [6] CRISPR-Cas systems: ushering in the new genome editing era
    Rojo, Fernando Perez
    Nyman, Rikard Karl Martin
    Johnson, Alexander Arthur Theodore
    Navarro, Maria Pazos
    Ryan, Megan Helen
    Erskine, William
    Kaur, Parwinder
    BIOENGINEERED, 2018, 9 (01) : 214 - 221
  • [7] Exploiting CRISPR-Cas immune systems for genome editing in bacteria
    Barrangou, Rodolphe
    van Pijkeren, Jan-Peter
    CURRENT OPINION IN BIOTECHNOLOGY, 2016, 37 : 61 - 68
  • [8] CRISPR-Cas Genome Editing in Ex Vivo Human Lungs
    Mesaki, K.
    Yamamoto, H.
    Juvet, S.
    Yeung, J.
    Guan, Z.
    Yao, Y.
    Chen, M.
    Gokhale, H.
    Shan, H.
    Wang, A.
    Wilson, G.
    Mariscal, A.
    Hu, J.
    Davidson, A.
    Kleinstiver, B.
    Cypel, M.
    Liu, M.
    Keshavjee, S.
    JOURNAL OF HEART AND LUNG TRANSPLANTATION, 2024, 43 (04): : S13 - S14
  • [9] Diversification of the CRISPR Toolbox: Applications of CRISPR-Cas Systems Beyond Genome Editing
    Balderston, Sarah
    Clouse, Gabrielle
    Ripoll, Juan-Jose
    Pratt, Grace K.
    Gasiunas, Giedrius
    Bock, Jens-Ole
    Bennett, Eric Paul
    Aran, Kiana
    CRISPR JOURNAL, 2021, 4 (03): : 400 - 415
  • [10] Genome editing using CRISPR-Cas nucleases
    Joung, J. K.
    HUMAN GENE THERAPY, 2016, 27 (11) : A7 - A7
12345