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DNA repair glycosylases with a 4Fe–4S cluster: A redox cofactor for DNA-mediated charge transport?

机译：具有4Fe–4S簇的DNA修复糖基化酶：DNA介导的电荷运输的氧化还原辅助因子吗？

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The [4Fe–4S] cluster is ubiquitous to a class of base excision repair enzymes in organisms ranging from bacteria to man and was first considered as a structural element, owing to its redox stability under physiological conditions. When studied bound to DNA, two of these repair proteins (MutY and Endonuclease III from Escherichia coli) display DNA-dependent reversible electron transfer with characteristics typical of high potential iron proteins. These results have inspired a reexamination of the role of the [4Fe–4S] cluster in this class of enzymes. Might the [4Fe–4S] cluster be used as a redox cofactor to search for damaged sites using DNA-mediated charge transport, a process well known to be highly sensitive to lesions and mismatched bases? Described here are experiments demonstrating the utility of DNA-mediated charge transport in characterizing these DNA-binding metalloproteins, as well as efforts to elucidate this new function for DNA as an electronic signaling medium among the proteins.

机译：[4Fe–4S]簇广泛存在于从细菌到人类的生物体中的一类碱基切除修复酶，由于其在生理条件下的氧化还原稳定性，首先被认为是结构元素。当研究与DNA结合时，这些修复蛋白中的两个（来自大肠杆菌的MutY和核酸内切酶III）表现出具有DNA依赖性的可逆电子转移，具有高电位铁蛋白的典型特征。这些结果激发了对[4Fe–4S]簇在此类酶中的作用的重新检验。 [4Fe–4S]簇是否可以用作氧化还原辅因子，使用DNA介导的电荷传输来搜索受损部位，这一过程众所周知对损伤和碱基错配高度敏感？这里描述的实验证明了DNA介导的电荷转移在表征这些与DNA结合的金属蛋白的特性中的效用，以及阐明这种作为DNA中电子信号传导介质的新功能的努力。

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Boal Amie K.; Yavin Eylon; Barton Jacqueline K.;
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1. DNA repair glycosylases with a [4Fe-4S] cluster: a redox cofactor for DNA-mediated charge transport? [J] . Boal AK, Yavin E, Barton JK Journal of Inorganic Biochemistry: An Interdisciplinary Journal . 2007 ,第11a12期

机译：具有[4Fe-4S]簇的DNA修复糖基化酶：DNA介导的电荷运输的氧化还原辅助因子吗？
2. DNA-bound redox activity of DNA repair glycosylases containing [4Fe-4S] clusters [J] . Boal AK, Yavin E, Lukianova OA, Biochemistry . 2005 ,第23期

机译：DNA修复含有[4FE-4S]簇的DNA修复糖基酶的DNA结合的氧化还原活性
3. The [4Fe4S] cluster of human DNA primase functions as a redox switch using DNA charge transport [J] . OBrien Elizabeth, Holt Marilyn E., Thompson Matthew K., Science . 2017 ,第6327期

机译：人类DNA primase的[4Fe4S]簇通过DNA电荷传输充当氧化还原开关
4. DNA-mediated Charge Transport Chemistry and Biology [C] . Jacqueline Barton Meeting of the Electrochemical Society . 2002

机译：DNA介导的电荷运输化学和生物学
5. DNA-mediated charge transport signaling within the cell. [D] . Grodick, Michael Andrew. 2016

机译：DNA介导的细胞内电荷传输信号。
6. DNA Repair Glycosylases with a 4Fe-4S Cluster: A Redox Cofactor for DNA-mediated Charge Transport? [O] . Amie K. Boal, Eylon Yavin, Jacqueline K. Barton -1

机译：具有4Fe-4S簇的DNA修复糖基化酶：用于DNA介导的电荷运输的氧化还原辅助因子吗？
7. DNA repair glycosylases with a 4Fe–4S cluster: A redox cofactor for DNA-mediated charge transport? [O] . Amie K. Boal, Eylon Yavin, Jacqueline K. Barton 2007

机译：用4FE-4S簇进行DNA修复糖基酶：用于DNA介导的电荷输送的氧化还原辅因子？
8. Structure/Function Analysis of DNA-glycosylases That Repair Oxidized Purines and Pyrimidines and the Influence of Surrounding DNA Sequence on Their Interactions [R] . 2005

机译：修复氧化嘌呤和嘧啶的DNa-糖基化酶的结构/功能分析及其周围DNa序列对其相互作用的影响

DNA repair glycosylases with a 4Fe–4S cluster: A redox cofactor for DNA-mediated charge transport?

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