在与HIV逆转录酶和核衣壳蛋白的反应中进行长DNA产物的体外合成。

In vitro synthesis of long DNA products in reactions with HIV-RT and nucleocapsid protein.

作者信息

Anthony Reshma M, Destefano Jeffrey J

机构信息

Department of Cell Biology and Molecular Genetics, University of Maryland, College Park, MD 20742, USA.

出版信息

J Mol Biol. 2007 Jan 12;365(2):310-24. doi: 10.1016/j.jmb.2006.10.007. Epub 2006 Oct 6.

DOI:10.1016/j.jmb.2006.10.007

PMID:17070544

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2493291/

Abstract

In vitro reaction conditions using HIV reverse transcriptase (RT) and nucleocapsid protein (NC) that allowed efficient synthesis of single-stranded DNA products over a thousand nucleotides in length from genomic HIV RNA were characterized. Consistent with previous reports, the reactions required high concentrations of NC and RT. Long products were produced as a result of frequent strand transfer between RNA templates, averaging at least one transfer per 300 nucleotides synthesized. No change in RT processivity was observed in the reactions in the presence versus absence of NC. Synthesis of long products required formation of a high molecular mass aggregate between NC and nucleic acids. The aggregate formed rapidly and pelleted with low speed centrifugation. The aggregate was accessible to RT as pre-formed aggregates synthesized long products when RT was added. NC finger mutants lacking either finger one or two or with the finger positions switched were all effective in promoting long products. This suggests that the aggregation/condensation but not helix-destabilizing activity of NC was required. We propose that these high molecular mass aggregates promote synthesis of long reverse transcription products in vitro by concentrating nucleic acids, RT enzyme and NC to close proximity, thereby mimicking the role of the capsid environment within the host cell.

摘要

对使用HIV逆转录酶（RT）和核衣壳蛋白（NC）的体外反应条件进行了表征，这些条件能够从HIV基因组RNA高效合成长度超过一千个核苷酸的单链DNA产物。与先前的报道一致，这些反应需要高浓度的NC和RT。长产物是由于RNA模板之间频繁的链转移而产生的，平均每合成300个核苷酸至少发生一次转移。在有或没有NC的反应中，未观察到RT持续合成能力的变化。长产物的合成需要在NC和核酸之间形成高分子质量聚集体。该聚集体迅速形成，并通过低速离心沉淀。当加入RT时，预先形成的聚集体可被RT利用来合成长产物。缺少一个或两个指状结构域或指状结构域位置互换的NC指状突变体在促进长产物合成方面均有效。这表明需要NC的聚集/凝聚作用而非螺旋解稳定活性。我们提出，这些高分子质量聚集体通过将核酸、RT酶和NC集中到紧密接近的位置，促进体外长链逆转录产物的合成，从而模拟宿主细胞内衣壳环境的作用。

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