Pfeiffer J K, Topping R S, Shin N H, Telesnitsky A
Department of Microbiology and Immunology and Comprehensive Cancer Center, University of Michigan Medical School, Ann Arbor, Michigan 48109-0620, USA.
J Virol. 1999 Oct;73(10):8441-7. doi: 10.1128/JVI.73.10.8441-8447.1999.
During retroviral DNA synthesis reverse transcriptase frequently performs nonrequired template switches that can lead to genetic rearrangements or recombination. It has been postulated that template switching occurs after pauses in the action of reverse transcriptase. Hence factors which affect pausing, such as polymerization rate, may affect the frequency of template switching. To address the hypothesis that increasing the time required to complete reverse transcription increases the frequency of template switching, we established conditions that lengthened the time required to complete a single round of intracellular Moloney murine leukemia virus reverse transcription approximately threefold. Under these conditions, which resulted from intracellular nucleotide pool imbalances generated with hydroxyurea, we examined template switching frequency using a lacZ-based tandem repeat deletion assay. We observed that the frequency of deletion during reverse transcription in hydroxyurea-treated cells was approximately threefold higher than that in untreated control cells. These findings suggest that rates of retroviral recombination may vary when the intracellular environment is altered.
在逆转录病毒DNA合成过程中,逆转录酶经常进行不必要的模板转换,这可能导致基因重排或重组。据推测,模板转换发生在逆转录酶作用暂停之后。因此,影响暂停的因素,如聚合速率,可能会影响模板转换的频率。为了验证增加完成逆转录所需时间会增加模板转换频率这一假设,我们建立了一些条件,使完成一轮细胞内莫洛尼鼠白血病病毒逆转录所需的时间延长了约三倍。在由羟基脲导致的细胞内核苷酸池失衡所产生的这些条件下,我们使用基于lacZ的串联重复缺失分析来检测模板转换频率。我们观察到,羟基脲处理过的细胞在逆转录过程中的缺失频率比未处理的对照细胞高出约三倍。这些发现表明,当细胞内环境改变时,逆转录病毒重组的速率可能会有所不同。