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EcoRII:一种具有重组功能的限制性内切酶?

EcoRII: a restriction enzyme evolving recombination functions?

作者信息

Mücke Merlind, Grelle Gerlinde, Behlke Joachim, Kraft Regine, Krüger Detlev H, Reuter Monika

机构信息

Institut für Virologie, Medizinische Fakultät (Charité) der Humboldt-Universität zu Berlin, D-10098 Berlin, Germany.

出版信息

EMBO J. 2002 Oct 1;21(19):5262-8. doi: 10.1093/emboj/cdf514.

DOI:10.1093/emboj/cdf514
PMID:12356742
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC129036/
Abstract

The restriction endonuclease EcoRII requires the cooperative interaction with two copies of the sequence 5'CCWGG for DNA cleavage. We found by limited proteolysis that EcoRII has a two-domain structure that enables this particular mode of protein-DNA interaction. The C-terminal domain is a new restriction endonuclease, EcoRII-C. In contrast to the wild-type enzyme, EcoRII-C cleaves DNA specifically at single 5'CCWGG sites. Moreover, substrates containing two or more cooperative 5'CCWGG sites are cleaved much more efficiently by EcoRII-C than by EcoRII. The N-terminal domain binds DNA specifically and attenuates the activity of EcoRII by making the enzyme dependent on a second 5'CCWGG site. Therefore, we suggest that a precursor EcoRII endonuclease acquired an additional DNA-binding domain to enable the interaction with two 5'CCWGG sites. The current EcoRII molecule could be an evolutionary intermediate between a site-specific endonuclease and a protein that functions specifically with two DNA sites such as recombinases and transposases. The combination of these functions may enable EcoRII to accomplish its own propagation similarly to transposons.

摘要

限制性内切酶EcoRII需要与两个5'CCWGG序列拷贝协同相互作用才能切割DNA。我们通过有限蛋白酶解发现,EcoRII具有双结构域结构,这种结构使其能够以这种特定的蛋白质 - DNA相互作用模式发挥作用。C端结构域是一种新的限制性内切酶,即EcoRII - C。与野生型酶不同,EcoRII - C能特异性地在单个5'CCWGG位点切割DNA。此外,含有两个或更多协同5'CCWGG位点的底物被EcoRII - C切割的效率比被EcoRII切割的效率高得多。N端结构域特异性结合DNA,并通过使酶依赖第二个5'CCWGG位点来减弱EcoRII的活性。因此,我们认为前体EcoRII内切酶获得了一个额外的DNA结合结构域,以实现与两个5'CCWGG位点的相互作用。当前的EcoRII分子可能是位点特异性内切酶与像重组酶和转座酶那样能特异性作用于两个DNA位点的蛋白质之间的进化中间体。这些功能的组合可能使EcoRII能够像转座子一样完成自身的增殖。

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