Kelleher C D, Champoux J J
Department of Microbiology, School of Medicine, University of Washington, Seattle, Washington 98195-7242, USA.
J Biol Chem. 1998 Apr 17;273(16):9976-86. doi: 10.1074/jbc.273.16.9976.
The RNase H activity of reverse transcriptase (RT) is presumably required to cleave the RNA genome following minus strand synthesis to free the DNA for use as a template during plus strand synthesis. However, since RNA degradation by RNase H appears to generate RNA fragments too large to spontaneously dissociate from the minus strand, we have investigated the possibility that RNA displacement by RT during plus strand synthesis contributes to the removal of RNA fragments. By using an RNase H- mutant of Moloney murine leukemia virus (M-MuLV) RT, we demonstrate that the polymerase can displace long regions of RNA in hybrid duplex with DNA but that this activity is approximately 5-fold slower than DNA displacement and 20-fold slower than non-displacement synthesis. Furthermore, we find that although certain hybrid sequences seem nearly refractory to the initiation of RNA displacement, the same sequences may not significantly impede synthesis when preceded by a single-stranded gap. We find that the rate of RNA displacement synthesis by wild-type M-MuLV RT is significantly greater than that of the RNase H- RT but remains less than the rate of non-displacement synthesis. M-MuLV nucleocapsid protein increases the rates of RNA and DNA displacement synthesis approximately 2-fold, and this activity appears to require the zinc finger domain.
逆转录酶(RT)的核糖核酸酶H(RNase H)活性大概是在负链合成后切割RNA基因组,以便释放出DNA,用作正链合成期间的模板所必需的。然而,由于RNase H介导的RNA降解似乎产生了太大而无法从负链上自发解离的RNA片段,我们研究了正链合成期间RT进行RNA置换有助于去除RNA片段的可能性。通过使用莫洛尼鼠白血病病毒(M-MuLV)RT的RNase H突变体,我们证明该聚合酶能够置换与DNA形成杂交双链体中的长片段RNA,但这种活性比DNA置换慢约5倍,比非置换合成慢20倍。此外,我们发现,虽然某些杂交序列似乎几乎难以启动RNA置换,但当在单链缺口之前时,相同的序列可能不会显著阻碍合成。我们发现野生型M-MuLV RT进行RNA置换合成的速率明显高于RNase H突变体RT,但仍低于非置换合成的速率。M-MuLV核衣壳蛋白使RNA和DNA置换合成的速率增加约2倍,并且这种活性似乎需要锌指结构域。
