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Tony P Huang

Showing results (1-10 of 14) with videos related to

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Nature Protocols|January 19, 2021
Precision genome editing using cytosine and adenine base editors in mammalian cellsTony P Huang, Gregory A Newby, David R Liu
Nature Protocols|November 18, 2021
Publisher Correction: Precision genome editing using cytosine and adenine base editors in mammalian cellsTony P Huang, Gregory A Newby, David R Liu
Nature Chemical Biology|August 22, 2018
Continuous directed evolution of proteins with improved soluble expressionTina Wang, Ahmed H Badran, Tony P Huang, et al.
Nature Biotechnology|April 5, 2022
CRISPR-free base editors with enhanced activity and expanded targeting scope in mitochondrial and nuclear DNABeverly Y Mok, Anna V Kotrys, Aditya Raguram, et al.
Nature Biotechnology|June 12, 2019
Author Correction: Circularly permuted and PAM-modified Cas9 variants broaden the targeting scope of base editorsTony P Huang, Kevin T Zhao, Shannon M Miller, et al.
Nature Biotechnology|September 8, 2022
High-throughput continuous evolution of compact Cas9 variants targeting single-nucleotide-pyrimidine PAMsTony P Huang, Zachary J Heins, Shannon M Miller, et al.
Nature Biotechnology|May 22, 2019
Circularly permuted and PAM-modified Cas9 variants broaden the targeting scope of base editorsTony P Huang, Kevin T Zhao, Shannon M Miller, et al.
Nature Biomedical Engineering|January 16, 2020
High-throughput analysis of the activities of xCas9, SpCas9-NG and SpCas9 at matched and mismatched target sequences in human cellsHui Kwon Kim, Sungtae Lee, Younggwang Kim, et al.
Nature Biomedical Engineering|July 28, 2022
Efficient in vivo base editing via single adeno-associated viruses with size-optimized genomes encoding compact adenine base editorsJessie R Davis, Xiao Wang, Isaac P Witte, et al.
Nature Biomedical Engineering|August 5, 2022
Publisher Correction: Efficient in vivo base editing via single adenoassociated viruses with size-optimized genomes encoding compact adenine base editorsJessie R Davis, Xiao Wang, Isaac P Witte, et al.
Pageof 2

Showing results (1-10 of 14) with videos related to

Sort By:
Pageof 2
Nature Protocols|January 19, 2021
Precision genome editing using cytosine and adenine base editors in mammalian cellsTony P Huang, Gregory A Newby, David R Liu
Nature Protocols|November 18, 2021
Publisher Correction: Precision genome editing using cytosine and adenine base editors in mammalian cellsTony P Huang, Gregory A Newby, David R Liu
Nature Chemical Biology|August 22, 2018
Continuous directed evolution of proteins with improved soluble expressionTina Wang, Ahmed H Badran, Tony P Huang, et al.
Nature Biotechnology|April 5, 2022
CRISPR-free base editors with enhanced activity and expanded targeting scope in mitochondrial and nuclear DNABeverly Y Mok, Anna V Kotrys, Aditya Raguram, et al.
Nature Biotechnology|June 12, 2019
Author Correction: Circularly permuted and PAM-modified Cas9 variants broaden the targeting scope of base editorsTony P Huang, Kevin T Zhao, Shannon M Miller, et al.
Nature Biotechnology|September 8, 2022
High-throughput continuous evolution of compact Cas9 variants targeting single-nucleotide-pyrimidine PAMsTony P Huang, Zachary J Heins, Shannon M Miller, et al.
Nature Biotechnology|May 22, 2019
Circularly permuted and PAM-modified Cas9 variants broaden the targeting scope of base editorsTony P Huang, Kevin T Zhao, Shannon M Miller, et al.
Nature Biomedical Engineering|January 16, 2020
High-throughput analysis of the activities of xCas9, SpCas9-NG and SpCas9 at matched and mismatched target sequences in human cellsHui Kwon Kim, Sungtae Lee, Younggwang Kim, et al.
Nature Biomedical Engineering|July 28, 2022
Efficient in vivo base editing via single adeno-associated viruses with size-optimized genomes encoding compact adenine base editorsJessie R Davis, Xiao Wang, Isaac P Witte, et al.
Nature Biomedical Engineering|August 5, 2022
Publisher Correction: Efficient in vivo base editing via single adenoassociated viruses with size-optimized genomes encoding compact adenine base editorsJessie R Davis, Xiao Wang, Isaac P Witte, et al.
Pageof 2