[HTML][HTML] A split and inducible adenine base editor for precise in vivo base editing
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
[HTML][HTML] A split and inducible adenine base editor for precise in vivo base editing
H Zeng, Q Yuan, F Peng, D Ma, A Lingineni… - Nature …, 2023 - ncbi.nlm.nih.gov
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
A split and inducible adenine base editor for precise in vivo base editing
H Zeng, Q Yuan, F Peng, D Ma, A Lingineni… - Nature …, 2023 - par.nsf.gov
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
A split and inducible adenine base editor for precise in vivo base editing
H Zeng, Q Yuan, F Peng, D Ma… - Nature …, 2023 - ui.adsabs.harvard.edu
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
A split and inducible adenine base editor for precise in vivo base editing.
H Zeng, Q Yuan, F Peng, D Ma, A Lingineni… - Nature …, 2023 - europepmc.org
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
A split and inducible adenine base editor for precise in vivo base editing
H Zeng, Q Yuan, F Peng, D Ma, A Lingineni… - Nature …, 2023 - ideas.repec.org
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
A split and inducible adenine base editor for precise in vivo base editing
H Zeng, Q Yuan, F Peng, D Ma… - Nature …, 2023 - pubmed.ncbi.nlm.nih.gov
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
A split and inducible adenine base editor for precise in vivo base editing.
H Zeng, Q Yuan, F Peng, D Ma… - Nature …, 2023 - search.ebscohost.com
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
[引用][C] A split and inducible adenine base editor for precise in vivo base editin
H Zeng, X Gao - 2023 AIChE Annual Meeting, 2023 - aiche.confex.com
A split and inducible adenine base editor for precise in vivo base editing
H Zeng, Q Yuan, F Peng, D Ma… - Nature …, 2023 - econpapers.repec.org
DNA base editors use deaminases fused to a programmable DNA-binding protein for
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …
targeted nucleotide conversion. However, the most widely used TadA deaminases lack post …