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David R Liu

Showing results (181-190 of 321) with videos related to

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Science (New York, N.Y.)|April 18, 2009
Conversion of 5-methylcytosine to 5-hydroxymethylcytosine in mammalian DNA by MLL partner TET1Mamta Tahiliani, Kian Peng Koh, Yinghua Shen, 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.
Proceedings of the National Academy of Sciences of the United States of America|November 18, 2024
In vivo photoreceptor base editing ameliorates rhodopsin-E150K autosomal-recessive retinitis pigmentosa in miceSamuel W Du, Gregory A Newby, David Salom, et al.
Nano Letters|October 20, 2011
DNA-enabled self-assembly of plasmonic nanoclustersJonathan A Fan, Yu He, Kui Bao, et al.
Nature Communications|March 11, 2025
In vivo prime editing rescues photoreceptor degeneration in nonsense mutant retinitis pigmentosaYidian Fu, Xiaoyu He, Liang Ma, et al.
Science (New York, N.Y.)|August 1, 2020
DNA capture by a CRISPR-Cas9-guided adenine base editorAudrone Lapinaite, Gavin J Knott, Cody M Palumbo, 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.
APL Bioengineering|March 3, 2025
Adenine base editing rescues pathogenic phenotypes in tissue engineered vascular model of Hutchinson-Gilford progeria syndromeNadia O Abutaleb, Xin D Gao, Akhil Bedapudi, 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|May 13, 2020
Prime genome editing in rice and wheatQiupeng Lin, Yuan Zong, Chenxiao Xue, et al.
Pageof 33

Showing results (181-190 of 321) with videos related to

Sort By:
Pageof 33
Science (New York, N.Y.)|April 18, 2009
Conversion of 5-methylcytosine to 5-hydroxymethylcytosine in mammalian DNA by MLL partner TET1Mamta Tahiliani, Kian Peng Koh, Yinghua Shen, 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.
Proceedings of the National Academy of Sciences of the United States of America|November 18, 2024
In vivo photoreceptor base editing ameliorates rhodopsin-E150K autosomal-recessive retinitis pigmentosa in miceSamuel W Du, Gregory A Newby, David Salom, et al.
Nano Letters|October 20, 2011
DNA-enabled self-assembly of plasmonic nanoclustersJonathan A Fan, Yu He, Kui Bao, et al.
Nature Communications|March 11, 2025
In vivo prime editing rescues photoreceptor degeneration in nonsense mutant retinitis pigmentosaYidian Fu, Xiaoyu He, Liang Ma, et al.
Science (New York, N.Y.)|August 1, 2020
DNA capture by a CRISPR-Cas9-guided adenine base editorAudrone Lapinaite, Gavin J Knott, Cody M Palumbo, 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.
APL Bioengineering|March 3, 2025
Adenine base editing rescues pathogenic phenotypes in tissue engineered vascular model of Hutchinson-Gilford progeria syndromeNadia O Abutaleb, Xin D Gao, Akhil Bedapudi, 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|May 13, 2020
Prime genome editing in rice and wheatQiupeng Lin, Yuan Zong, Chenxiao Xue, et al.
Pageof 33