通过重组耐热种间组合UvrABC核酸内切酶系统对苯并[a]芘-7,8-二氢二醇-9,10-环氧化物-DNA加合物进行强力切割。

Robust incision of Benoz[a]pyrene-7,8-dihyrodiol-9,10-epoxide-DNA adducts by a recombinant thermoresistant interspecies combination UvrABC endonuclease system.

作者信息

Jiang Guo Hui, Skorvaga Milan, Croteau Deborah L, Van Houten Bennett, States J Christopher

机构信息

Department of Pharmacology and Toxicology, Brown Cancer Center, and Center for Genetics and Molecular Medicine, University of Louisville, Louisville, Kentucky 40202, USA.

出版信息

Biochemistry. 2006 Jun 27;45(25):7834-43. doi: 10.1021/bi052515e.

DOI:10.1021/bi052515e

PMID:16784235

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2505190/

Abstract

Prokaryotic DNA repair nucleases are useful reagents for detecting DNA lesions. UvrABC endonuclease, encoded by the UvrA, UvrB, and UvrC genes can incise DNA containing bulky nucleotide adducts and intrastrand cross-links. UvrA, UvrB, and UvrC were cloned from Bacillus caldotenax (Bca)and UvrC from Thermatoga maritima (Tma), and recombinant proteins were overexpressed in and purified from Escherichia coli. Incision activities of UvrABC composed of all Bca-derived subunits (UvrABC(Bca)) and an interspecies combination UvrABC composed of Bca-derived UvrA and UvrB and Tma-derived UvrC (UvrABC(Tma)) were compared on benoz[a]pyrene-7,8-dihyrodiol-9,10-epoxide (BPDE)-adducted substrates. Both UvrABC(Bca) and UvrABC(Tma) specifically incised both BPDE-adducted plasmid DNAs and site-specifically modified 50-bp oligonucleotides containing a single (+)-trans- or (+)-cis-BPDE adduct. Incision activity was maximal at 55-60 degrees C. However, UvrABC(Tma) was more robust than UvrABC(Bca) with 4-fold greater incision activity on BPDE-adducted oligonucleotides and 1.5-fold greater on [(3)H]BPDE-adducted plasmid DNAs. Remarkably, UvrABC(Bca) incised only at the eighth phosphodiester bond 5' to the BPDE-modified guanosine. In contrast, UvrABC(Tma) performed dual incision, cutting at both the fifth phosphodiester bond 3' and eighth phosphodiester bond 5' from BPDE-modified guanosine. BPDE adduct stereochemistry influenced incision activity, and cis adducts on oligonucleotide substrates were incised more efficiently than trans adducts by both UvrABC(Bca) and UvrABC(Tma). UvrAB-DNA complex formation was similar with (+)-trans- and (+)-cis-BPDE-adducted substrates, suggesting that UvrAB binds both adducts equally and that adduct configuration modifies UvrC recognition of the UvrAB-DNA complex. The dual incision capabilities and higher incision activity of UvrABC(Tma) make it a robust tool for DNA adduct studies.

摘要

原核生物DNA修复核酸酶是检测DNA损伤的有用试剂。由UvrA、UvrB和UvrC基因编码的UvrABC核酸内切酶可以切割含有大体积核苷酸加合物和链内交联的DNA。从嗜热栖热放线菌（Bca）中克隆出UvrA、UvrB和UvrC，从嗜热栖热放线菌（Tma）中克隆出UvrC，并在大肠杆菌中过表达重组蛋白并进行纯化。比较了由所有源自Bca的亚基组成的UvrABC（UvrABC（Bca））和由源自Bca的UvrA和UvrB以及源自Tma的UvrC组成的种间组合UvrABC（UvrABC（Tma））对苯并[a]芘-7,8-二氢二醇-9,10-环氧化物（BPDE）加合底物的切割活性。UvrABC（Bca）和UvrABC（Tma）都能特异性切割BPDE加合的质粒DNA和含有单个（+）-反式或（+）-顺式BPDE加合物的位点特异性修饰的50个碱基的寡核苷酸。切割活性在55-60摄氏度时最大。然而，UvrABC（Tma）比UvrABC（Bca）更具活性，对BPDE加合的寡核苷酸的切割活性高4倍，对[（3）H]BPDE加合的质粒DNA的切割活性高1.5倍。值得注意的是，UvrABC（Bca）仅在BPDE修饰的鸟苷5'端的第八个磷酸二酯键处切割。相比之下，UvrABC（Tma）进行双重切割，在BPDE修饰的鸟苷3'端的第五个磷酸二酯键和5'端的第八个磷酸二酯键处切割。BPDE加合物的立体化学影响切割活性，UvrABC（Bca）和UvrABC（Tma）对寡核苷酸底物上的顺式加合物的切割效率均高于反式加合物。UvrAB-DNA复合物的形成与（+）-反式和（+）-顺式BPDE加合底物相似，表明UvrAB与两种加合物的结合程度相同，加合物构型改变了UvrC对UvrAB-DNA复合物的识别。UvrABC（Tma）的双重切割能力和更高的切割活性使其成为DNA加合物研究的有力工具。

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