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被χ激活的RecBCD酶具有5'→3'核酸外切酶活性,但RecBC酶没有:证据表明χ诱导的改变不只是RecD亚基的排出。

Chi-activated RecBCD enzyme possesses 5'-->3' nucleolytic activity, but RecBC enzyme does not: evidence suggesting that the alteration induced by Chi is not simply ejection of the RecD subunit.

作者信息

Anderson D G, Churchill J J, Kowalczykowski S C

机构信息

Genetics Graduate Group, University of California, Davis 95616-8665, USA.

出版信息

Genes Cells. 1997 Feb;2(2):117-28. doi: 10.1046/j.1365-2443.1997.1130311.x.

DOI:10.1046/j.1365-2443.1997.1130311.x
PMID:9167969
Abstract

BACKGROUND

Homologous recombination in Escherichia coli is initiated by the RecBCD enzyme, and is stimulated by DNA elements known as Chi (chi) sites. The RecBCD enzyme is both a helicase and a nuclease. Recognition of chi causes both attenuation of the 3'-->5' exonuclease activity of the RecBCD enzyme, and activation of an exonuclease activity with 5'-->3' polarity, while leaving the helicase activity unaffected. A variety of evidence suggests that chi-recognition by RecBCD enzyme is accompanied by ejection of the RecD subunit.

RESULTS

Through examination of RecBCD exonuclease activity under a variety of conditions, we have shown that recognition of chi by the RecBCD enzyme results in a net reduction of nuclease activity. In addition, the exact location of the first cleavage event elicited by chi-activation of the 5'-->3' nuclease is dependent upon the concentration of free magnesium ions. Finally, we have demonstrated that purified RecBC enzyme (i.e. without the RecD subunit) possesses no significant exonuclease activity under conditions where the chi-modified RecBCD enzyme is an active 5'-->3' exonuclease.

CONCLUSIONS

We have shown that, despite the activation of a 5'-->3' exonuclease, recognition of chi by the RecBCD enzyme results in a net preservation of DNA. This new chi-activated nucleolytic action shows surprising variability in the exact location of its initial cleavage. We have demonstrated that purified RecBC enzyme is not an exact analogue of the chi-activated RecBCD enzyme, suggesting that the biochemical basis of chi-activation is not simply ejection of the RecD subunit.

摘要

背景

大肠杆菌中的同源重组由RecBCD酶启动,并受到称为Chi(χ)位点的DNA元件的刺激。RecBCD酶既是解旋酶又是核酸酶。对χ位点的识别会导致RecBCD酶的3'→5'核酸外切酶活性减弱,以及激活具有5'→3'极性的核酸外切酶活性,而解旋酶活性不受影响。各种证据表明,RecBCD酶对χ位点的识别伴随着RecD亚基的释放。

结果

通过在各种条件下检测RecBCD核酸外切酶活性,我们发现RecBCD酶对χ位点的识别导致核酸酶活性净降低。此外,由χ激活的5'→3'核酸酶引发的首次切割事件的确切位置取决于游离镁离子的浓度。最后,我们证明在χ修饰的RecBCD酶作为活性5'→3'核酸外切酶的条件下,纯化的RecBC酶(即不含RecD亚基)没有明显的核酸外切酶活性。

结论

我们已经表明,尽管激活了5'→3'核酸外切酶,但RecBCD酶对χ位点的识别导致DNA的净保留。这种新的χ激活的核酸水解作用在其初始切割的确切位置显示出惊人的变异性。我们已经证明纯化的RecBC酶不是χ激活的RecBCD酶的精确类似物,这表明χ激活的生化基础不仅仅是RecD亚基的释放。

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