The emerging patent landscape of CRISPR–Cas gene editing technology

被引:0
|
作者
Knut J Egelie
Gregory D Graff
Sabina P Strand
Berit Johansen
机构
[1] Norwegian University of Science and Technology,Knut J. Egelie and Berit Johansen are in the Department of Biology
[2] Trondheim,Gregory D. Graff is in the Department of Agricultural and Resource Economics, and the Department of Technology Management and Economics
[3] Norway,undefined
[4] Colorado State University,undefined
[5] Fort Collins,undefined
[6] Colorado,undefined
[7] USA,undefined
[8] Chalmers University of Technology,undefined
[9] Gothenburg,undefined
[10] Sweden,undefined
[11] Knut J. Egelie and Sabina P. Strand are in the Technology Transfer Office,undefined
[12] Norwegian University of Science and Technology,undefined
[13] Trondheim,undefined
[14] Norway.,undefined
来源
Nature Biotechnology | 2016年 / 34卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Early views on the control of the CRISPR–Cas disruptive enabling technology and access for follow-on commercial applications.
引用
收藏
页码:1025 / 1031
页数:6
相关论文
共 50 条
  • [21] Optimized protocol for gene editing in adipocytes using CRISPR-Cas9 technology
    Qiu, Yan
    Ding, Qiurong
    STAR PROTOCOLS, 2021, 2 (01):
  • [22] CRISPR-Cas gene editing technology and its application prospect in medicinal plants
    Miaoxian Guo
    Hongyu Chen
    Shuting Dong
    Zheng Zhang
    Hongmei Luo
    Chinese Medicine, 17
  • [23] Nobel Prize in Chemistry 2020 for gene editing with CRISPR/Cas9 technology
    Luthy, Isabel A.
    Lamb, Caroline A.
    MEDICINA-BUENOS AIRES, 2020, 80 (06) : 738 - 740
  • [24] CRISPR-Cas gene editing technology and its application prospect in medicinal plants
    Guo, Miaoxian
    Chen, Hongyu
    Dong, Shuting
    Zhang, Zheng
    Luo, Hongmei
    CHINESE MEDICINE, 2022, 17 (01)
  • [25] Advances in and Perspectives on Transgenic Technology and CRISPR-Cas9 Gene Editing in Broccoli
    Zhang, Li
    Meng, Sufang
    Liu, Yumei
    Han, Fengqing
    Xu, Tiemin
    Zhao, Zhiwei
    Li, Zhansheng
    GENES, 2024, 15 (06)
  • [26] A review of emerging physical transfection methods for CRISPR/Cas9-mediated gene editing
    Fajrial, Apresio K.
    He, Qing Qing
    Wirusanti, Nurul, I
    Slansky, Jill E.
    Ding, Xiaoyun
    THERANOSTICS, 2020, 10 (12): : 5532 - 5549
  • [27] Dealing with Patent Fragmentation in Genetics: Can Patent Pools Facilitate the Development of CRISPR Gene-Editing Technology?
    Stasi, Alessandro
    Rodrigues, Isabel Pereira
    JOURNAL OF LAW AND MEDICINE, 2019, 26 (04) : 866 - 873
  • [28] Controlling CRISPR-Cas9 Gene Editing
    Dowdy, Steven F.
    NEW ENGLAND JOURNAL OF MEDICINE, 2019, 381 (03): : 289 - 290
  • [29] Principles and medical applications of gene editing by CRISPR / Cas
    Sanchez Artigas, Rolando
    Diaz Armas, Maria Teresa
    Rodriguez Duque, Raisa
    Miguel Soca, Pedro Enrique
    MEDISUR-REVISTA DE CIENCIAS MEDICAS DE CIENFUEGOS, 2021, 19 (06): : 1005 - 1014
  • [30] Advancing CRISPR/Cas gene editing with machine learning
    Fong, John H. C.
    Wong, Alan S. L.
    CURRENT OPINION IN BIOMEDICAL ENGINEERING, 2023, 28
12345