Literature DB >> 21179091

A TALE nuclease architecture for efficient genome editing.

Jeffrey C Miller1, Siyuan Tan, Guijuan Qiao, Kyle A Barlow, Jianbin Wang, Danny F Xia, Xiangdong Meng, David E Paschon, Elo Leung, Sarah J Hinkley, Gladys P Dulay, Kevin L Hua, Irina Ankoudinova, Gregory J Cost, Fyodor D Urnov, H Steve Zhang, Michael C Holmes, Lei Zhang, Philip D Gregory, Edward J Rebar.   

Abstract

Nucleases that cleave unique genomic sequences in living cells can be used for targeted gene editing and mutagenesis. Here we develop a strategy for generating such reagents based on transcription activator-like effector (TALE) proteins from Xanthomonas. We identify TALE truncation variants that efficiently cleave DNA when linked to the catalytic domain of FokI and use these nucleases to generate discrete edits or small deletions within endogenous human NTF3 and CCR5 genes at efficiencies of up to 25%. We further show that designed TALEs can regulate endogenous mammalian genes. These studies demonstrate the effective application of designed TALE transcription factors and nucleases for the targeted regulation and modification of endogenous genes.

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Year:  2010        PMID: 21179091     DOI: 10.1038/nbt.1755

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  52 in total

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Review 4.  Critical parameters for genome editing using zinc finger nucleases.

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6.  A simple cipher governs DNA recognition by TAL effectors.

Authors:  Matthew J Moscou; Adam J Bogdanove
Journal:  Science       Date:  2009-12-11       Impact factor: 47.728

7.  Highly efficient endogenous human gene correction using designed zinc-finger nucleases.

Authors:  Fyodor D Urnov; Jeffrey C Miller; Ya-Li Lee; Christian M Beausejour; Jeremy M Rock; Sheldon Augustus; Andrew C Jamieson; Matthew H Porteus; Philip D Gregory; Michael C Holmes
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Review 4.  Zinc-finger nucleases for somatic gene therapy: the next frontier.

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Review 7.  CRISPR-Cas systems for editing, regulating and targeting genomes.

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8.  C-terminal in Sp1-like artificial zinc-finger proteins plays crucial roles in determining their DNA binding affinity.

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