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腺相关病毒DNA发夹结构对重组的影响。

Effects of adeno-associated virus DNA hairpin structure on recombination.

作者信息

Choi Vivian W, Samulski R Jude, McCarty Douglas M

机构信息

Department of Pharmacology, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA.

出版信息

J Virol. 2005 Jun;79(11):6801-7. doi: 10.1128/JVI.79.11.6801-6807.2005.

DOI:10.1128/JVI.79.11.6801-6807.2005
PMID:15890919
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1112146/
Abstract

Hairpin DNA ends are evolutionarily conserved intermediates in DNA recombination. The hairpin structures present on the ends of the adeno-associated virus (AAV) genome are substrates for recombination that give rise to persistent circular and concatemeric DNA episomes through intramolecular and intermolecular recombination, respectively. We have developed circularization-dependent and orientation-specific self-complementary AAV (scAAV) vectors as a reporter system to examine recombination events involving distinct hairpin structures, i.e., closed versus open hairpins. The results suggest that intramolecular recombination (circularization) is far more efficient than intermolecular recombination (concatemerization). Among all possible combinations of terminal repeats (TRs) involved in intermolecular recombination, the closed-closed TR structures are twice as efficient as the open-open TR substrates for recombination. In addition, both intramolecular recombination and intermolecular recombination exhibit the common dependency on specific DNA polymerases and topoisomerases. The circularization-dependent and orientation-specific scAAV vectors can serve as an efficient and controlled system for the delivery of DNA structures that mimic mammalian recombination intermediates and should be useful in assaying recombination in different experimental settings as well as elucidating the molecular mechanism of recombinant AAV genome persistence.

摘要

发夹状DNA末端是DNA重组过程中进化上保守的中间体。腺相关病毒(AAV)基因组末端存在的发夹结构是重组的底物,分别通过分子内和分子间重组产生持久的环状和串联DNA附加体。我们已经开发出了依赖环化且具有方向特异性的自我互补AAV(scAAV)载体作为报告系统,以检测涉及不同发夹结构(即封闭型与开放型发夹)的重组事件。结果表明,分子内重组(环化)比分子间重组(串联化)效率高得多。在分子间重组涉及的所有可能的末端重复序列(TR)组合中,封闭-封闭型TR结构作为重组底物的效率是开放-开放型TR底物的两倍。此外,分子内重组和分子间重组都表现出对特定DNA聚合酶和拓扑异构酶的共同依赖性。依赖环化且具有方向特异性的scAAV载体可以作为一种高效且可控的系统,用于递送模拟哺乳动物重组中间体的DNA结构,并且在不同实验环境中检测重组以及阐明重组AAV基因组持久性的分子机制方面应该会很有用。

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