Literature DB >> 25503695

Adeno-associated virus inverted terminal repeats stimulate gene editing.

M L Hirsch1.   

Abstract

Advancements in genome editing have relied on technologies to specifically damage DNA which, in turn, stimulates DNA repair including homologous recombination (HR). As off-target concerns complicate the therapeutic translation of site-specific DNA endonucleases, an alternative strategy to stimulate gene editing based on fragile DNA was investigated. To do this, an episomal gene-editing reporter was generated by a disruptive insertion of the adeno-associated virus (AAV) inverted terminal repeat (ITR) into the egfp gene. Compared with a non-structured DNA control sequence, the ITR induced DNA damage as evidenced by increased gamma-H2AX and Mre11 foci formation. As local DNA damage stimulates HR, ITR-mediated gene editing was investigated using DNA oligonucleotides as repair substrates. The AAV ITR stimulated gene editing >1000-fold in a replication-independent manner and was not biased by the polarity of the repair oligonucleotide. Analysis of additional human DNA sequences demonstrated stimulation of gene editing to varying degrees. In particular, inverted yet not direct, Alu repeats induced gene editing, suggesting a role for DNA structure in the repair event. Collectively, the results demonstrate that inverted DNA repeats stimulate gene editing via double-strand break repair in an episomal context and allude to efficient gene editing of the human chromosome using fragile DNA sequences.

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Year:  2014        PMID: 25503695      PMCID: PMC4388141          DOI: 10.1038/gt.2014.109

Source DB:  PubMed          Journal:  Gene Ther        ISSN: 0969-7128            Impact factor:   5.250


  48 in total

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5.  Inverted Alu repeats unstable in yeast are excluded from the human genome.

Authors:  K S Lobachev; J E Stenger; O G Kozyreva; J Jurka; D A Gordenin; M A Resnick
Journal:  EMBO J       Date:  2000-07-17       Impact factor: 11.598

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7.  Improved Genome Editing through Inhibition of FANCM and Members of the BTR Dissolvase Complex.

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Review 10.  Adeno-Associated Viral Vectors in Neuroscience Research.

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