DNA damage recognition and repair pathway coordination revealed by the structural biochemistry of DNA repair enzymes.

Hosfield DJ; Daniels DS; Mol CD; Putnam CD; Parikh SS; Tainer JA

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DNA damage recognition and repair pathway coordination revealed by the structural biochemistry of DNA repair enzymes.

机译：DNA损伤识别和修复途径的协调由DNA修复酶的结构生物化学揭示。

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Cells have evolved distinct mechanisms for both preventing and removing mutagenic and lethal DNA damage. Structural and biochemical characterization of key enzymes that function in DNA repair pathways are illuminating the biological and chemical mechanisms that govern initial lesion detection, recognition, and excision repair of damaged DNA. These results are beginning to reveal a higher level of DNA repair coordination that ensures the faithful repair of damaged DNA. Enzyme-induced DNA distortions allow for the specific recognition of distinct extrahelical lesions, as well as tight binding to cleaved products, which has implications for the ordered transfer of unstable DNA repair intermediates between enzymes during base excision repair.

机译：细胞已发展出独特的机制来预防和消除诱变和致命的DNA损伤。在DNA修复途径中起作用的关键酶的结构和生化特征正在阐明控制受损DNA的初始病变检测，识别和切除修复的生物学和化学机制。这些结果开始揭示出更高水平的DNA修复协调性，可确保对受损DNA的忠实修复。酶诱导的DNA畸变可特异性识别不同的螺旋外病变，并与裂解产物紧密结合，这对碱基切除修复过程中酶之间不稳定的DNA修复中间体的有序转移具有影响。

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《Progress in nucleic acid research and molecular biology》 |2001年第0期|共33页
作者
Hosfield DJ; Daniels DS; Mol CD; Putnam CD; Parikh SS; Tainer JA;
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原文格式 PDF
正文语种 eng
中图分类基础医学;
关键词
DNA Damage; DNA Ligases; DNA Repair; Guanine; DNA损伤; DNA修复; 鸟嘌呤;

机译：DNA Damage;DNA Ligases;DNA Repair;Guanine;DNA损伤;DNA修复;鸟嘌呤;

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1. DNA damage recognition and repair pathway coordination revealed by the structural biochemistry of DNA repair enzymes. [J] . Hosfield DJ, Daniels DS, Mol CD, Progress in nucleic acid research and molecular biology . 2001,第0期

机译：DNA损伤识别和修复途径的协调由DNA修复酶的结构生物化学揭示。
2. Role of base flipping in specific recognition of damaged DNA by repair enzymes. [J] . Fuxreiter M, Luo N, Jedlovszky P, Journal of Molecular Biology . 2002,第5期

机译：碱基翻转在修复酶特异性识别受损DNA中的作用。
3. A new Schizosaccharomyces pombe base excision repair mutant, nth1, reveals overlapping pathways for repair of DNA base damage. [J] . Osman F, Bjoras M, Alseth I, Molecular Microbiology . 2003,第2期

机译：一个新的粟酒裂殖酵母碱基切除修复突变体nth1，揭示了DNA碱基损伤修复的重叠途径。
4. Building a Structural Understanding of DNA Damage Repair a Mass Shift Analysis of DNA Ligase IV Regulation [C] . Martial Rey, Yaping Yu, Susan Lees-Miller, American Society for Mass Spectrometry Conference on Mass Spectrometry and Allied Topics . 2011

机译：建立对DNA损伤修复的结构理解修复DNA连接酶IV调控的质量转变分析
5. Contribution of DNA bending and opening dynamics to the specific recognition of damaged DNA by repair enzymes. [D] . Seibert, Eleanore. 2003

机译：DNA弯曲和开放动力学对修复酶特异性识别受损DNA的贡献。
6. Isolation of cDNA clones encoding an enzyme from bovine cells that repairs oxidative DNA damage in vitro: homology with bacterial repair enzymes. [O] . C N Robson, A M Milne, D J Pappin, 1991

机译：从牛细胞中分离出一种编码酶的cDNA克隆该酶可在体外修复氧化性DNA损伤：与细菌修复酶具有同源性。
7. Isolation of cDNA clones encoding an enzyme from bovine cells that repairs oxidative DNA damage in vitro: homology with bacterial repair enzymes. [O] . Robson, C N, Milne, A M, Pappin, D J, 1991

机译：从牛细胞中分离一种编码酶的cDNA克隆，该酶可在体外修复氧化性DNA损伤：与细菌修复酶具有同源性。

DNA damage recognition and repair pathway coordination revealed by the structural biochemistry of DNA repair enzymes.

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