末端重复序列介导的同源重组介导的细菌人工染色体的自动切除：一种用于生成无痕迹疱疹病毒遗传突变体的新方法。

Autoexcision of bacterial artificial chromosome facilitated by terminal repeat-mediated homologous recombination: a novel approach for generating traceless genetic mutants of herpesviruses.

机构信息

Tumor Virology Program, Greehey Children's Cancer Research Institute, Departments of Pediatrics, Microbiology and Immunology, Molecular Medicine, and Medicine, and Cancer Therapy and Research Center, the University of Texas Health Science Center, San Antonio, Texas 78229, USA.

出版信息

J Virol. 2010 Mar;84(6):2871-80. doi: 10.1128/JVI.01734-09. Epub 2010 Jan 13.

DOI:10.1128/JVI.01734-09

PMID:20071577

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2826046/

Abstract

Infectious bacterial artificial chromosomes (BACs) of herpesviruses are powerful tools for genetic manipulation. However, the presence of BAC vector sequence in the viral genomes often causes genetic and phenotypic alterations. While the excision of the BAC vector cassette can be achieved by homologous recombination between extra duplicate viral sequences or loxP site-mediated recombination, these methods either are inefficient or leave a loxP site mark in the viral genome. Here we describe the use of viral intrinsic repeat sequences, which are commonly present in herpesviral genomes, to excise the BAC vector cassette. Using a newly developed in vitro transposon-based cloning approach, we obtained an infectious BAC of rhesus rhadinovirus (RRV) strain RRV26-95 with the BAC vector cassette inserted in the terminal repeat (TR) region. We showed that the BAC vector cassette was rapidly excised upon reconstitution in cells predominantly through TR-mediated homologous recombination. Genetic and phenotypic analysis showed that the BAC-excised virus was reversed to wild-type RRV. Using this autoexcisable BAC clone, we successfully generated an RRV mutant with a deletion of Orf50, which encodes a replication and transcription activator (RTA) protein. Together, these results illustrate the usefulness of TR for genetic manipulation of herpesviruses when combined with the novel transposon-based cloning approach.

摘要

感染性细菌人工染色体 (BAC) 是遗传操作的有力工具。然而，BAC 载体序列在病毒基因组中的存在常常导致遗传和表型改变。虽然可以通过额外的重复病毒序列之间的同源重组或 loxP 位点介导的重组来切除 BAC 载体盒，但是这些方法要么效率低下，要么在病毒基因组中留下 loxP 位点标记。在这里，我们描述了使用病毒内在重复序列来切除 BAC 载体盒的方法。我们使用新开发的基于转座子的体外克隆方法，获得了 BAC 载体盒插入末端重复 (TR) 区域的恒河猴疱疹病毒 (RRV) 株 RRV26-95 的感染性 BAC。我们表明，BAC 载体盒在细胞中重建时主要通过 TR 介导的同源重组迅速被切除。遗传和表型分析表明，BAC 切除的病毒恢复为野生型 RRV。使用这种可自动切除的 BAC 克隆，我们成功地生成了一个缺失 Orf50 的 RRV 突变体，该基因编码复制和转录激活剂 (RTA) 蛋白。总之，这些结果表明，当与新型转座子基于克隆的方法结合使用时，TR 对于疱疹病毒的遗传操作非常有用。

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