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Luke W Koblan

Showing results (1-10 of 27) with videos related to

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Nature Biotechnology|June 24, 2020
Genome editing with CRISPR-Cas nucleases, base editors, transposases and prime editorsAndrew V Anzalone, Luke W Koblan, David R Liu
Nature|July 21, 2021
Base editor treats progeria in miceLuke W Koblan, Michael R Erdos, Leslie B Gordon, et al.
Aging Cell|June 4, 2021
Mechanisms of angiogenic incompetence in Hutchinson-Gilford progeria via downregulation of endothelial NOSYantenew G Gete, Luke W Koblan, Xiaojing Mao, et al.
Nature Communications|July 4, 2019
Addendum: High-resolution specificity profiling and off-target prediction for site-specific DNA recombinasesJeffrey L Bessen, Lena K Afeyan, Vlado Dančík, et al.
Nature Communications|April 28, 2019
High-resolution specificity profiling and off-target prediction for site-specific DNA recombinasesJeffrey L Bessen, Lena K Afeyan, Vlado Dančík, et al.
Nature Biotechnology|May 30, 2018
Improving cytidine and adenine base editors by expression optimization and ancestral reconstructionLuke W Koblan, Jordan L Doman, Christopher Wilson, et al.
Nature Biomedical Engineering|January 16, 2020
Cytosine and adenine base editing of the brain, liver, retina, heart and skeletal muscle of mice via adeno-associated virusesJonathan M Levy, Wei-Hsi Yeh, Nachiket Pendse, et al.
Science Advances|September 7, 2017
Improved base excision repair inhibition and bacteriophage Mu Gam protein yields C:G-to-T:A base editors with higher efficiency and product purityAlexis C Komor, Kevin T Zhao, Michael S Packer, et al.
Nature Biotechnology|December 10, 2021
Programmable deletion, replacement, integration and inversion of large DNA sequences with twin prime editingAndrew V Anzalone, Xin D Gao, Christopher J Podracky, et al.
Nature Biotechnology|July 24, 2019
Continuous evolution of base editors with expanded target compatibility and improved activityB W Thuronyi, Luke W Koblan, Jonathan M Levy, et al.
Pageof 3

Showing results (1-10 of 27) with videos related to

Sort By:
Pageof 3
Nature Biotechnology|June 24, 2020
Genome editing with CRISPR-Cas nucleases, base editors, transposases and prime editorsAndrew V Anzalone, Luke W Koblan, David R Liu
Nature|July 21, 2021
Base editor treats progeria in miceLuke W Koblan, Michael R Erdos, Leslie B Gordon, et al.
Aging Cell|June 4, 2021
Mechanisms of angiogenic incompetence in Hutchinson-Gilford progeria via downregulation of endothelial NOSYantenew G Gete, Luke W Koblan, Xiaojing Mao, et al.
Nature Communications|July 4, 2019
Addendum: High-resolution specificity profiling and off-target prediction for site-specific DNA recombinasesJeffrey L Bessen, Lena K Afeyan, Vlado Dančík, et al.
Nature Communications|April 28, 2019
High-resolution specificity profiling and off-target prediction for site-specific DNA recombinasesJeffrey L Bessen, Lena K Afeyan, Vlado Dančík, et al.
Nature Biotechnology|May 30, 2018
Improving cytidine and adenine base editors by expression optimization and ancestral reconstructionLuke W Koblan, Jordan L Doman, Christopher Wilson, et al.
Nature Biomedical Engineering|January 16, 2020
Cytosine and adenine base editing of the brain, liver, retina, heart and skeletal muscle of mice via adeno-associated virusesJonathan M Levy, Wei-Hsi Yeh, Nachiket Pendse, et al.
Science Advances|September 7, 2017
Improved base excision repair inhibition and bacteriophage Mu Gam protein yields C:G-to-T:A base editors with higher efficiency and product purityAlexis C Komor, Kevin T Zhao, Michael S Packer, et al.
Nature Biotechnology|December 10, 2021
Programmable deletion, replacement, integration and inversion of large DNA sequences with twin prime editingAndrew V Anzalone, Xin D Gao, Christopher J Podracky, et al.
Nature Biotechnology|July 24, 2019
Continuous evolution of base editors with expanded target compatibility and improved activityB W Thuronyi, Luke W Koblan, Jonathan M Levy, et al.
Pageof 3