氨基末端结构域交换在体外重定向腺相关病毒rep78的起始点特异性相互作用。
Amino-terminal domain exchange redirects origin-specific interactions of adeno-associated virus rep78 in vitro.
作者信息
Yoon M, Smith D H, Ward P, Medrano F J, Aggarwal A K, Linden R M
机构信息
Institute for Gene Therapy and Molecular Medicine, New York, New York 10029, USA.
出版信息
J Virol. 2001 Apr;75(7):3230-9. doi: 10.1128/JVI.75.7.3230-3239.2001.
Abstract
The unique ability of adeno-associated virus type 2 (AAV) to site-specifically integrate its genome into a defined sequence on human chromosome 19 (AAVS1) makes it of particular interest for use in targeted gene delivery. The objective underlying this study is to provide evidence for the feasibility of retargeting site-specific integration into selected loci within the human genome. Current models postulate that AAV DNA integration is initiated through the interactions of the products of a single viral open reading frame, REP, with sequences present in AAVS1 that resemble the minimal origin for AAV DNA replication. Here, we present a cell-free system designed to dissect the Rep functions required to target site-specific integration using functional chimeric Rep proteins derived from AAV Rep78 and Rep1 of the closely related goose parvovirus. We show that amino-terminal domain exchange efficiently redirects the specificity of Rep to the minimal origin of DNA replication. Furthermore, we establish that the amino-terminal 208 amino acids of Rep78/68 constitute a catalytic domain of Rep sufficient to mediate site-specific endonuclease activity.
摘要
2型腺相关病毒(AAV)具有将其基因组位点特异性整合到人类19号染色体上特定序列(AAVS1)的独特能力,这使其在靶向基因递送方面具有特殊的应用价值。本研究的目的是为将位点特异性整合重新靶向到人类基因组内选定基因座的可行性提供证据。目前的模型推测,AAV DNA整合是通过单个病毒开放阅读框REP的产物与AAVS1中存在的类似于AAV DNA复制最小起始位点的序列相互作用而启动的。在此,我们提出了一个无细胞系统,该系统旨在利用源自AAV Rep78和密切相关的鹅细小病毒Rep1的功能性嵌合Rep蛋白,剖析靶向位点特异性整合所需的Rep功能。我们发现,氨基末端结构域交换有效地将Rep的特异性重新导向DNA复制的最小起始位点。此外,我们确定Rep78/68的氨基末端208个氨基酸构成了Rep的一个催化结构域,足以介导位点特异性内切核酸酶活性。
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