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Ribonucleoside Triphosphate Reductase Reaction: Mechanism and Intermediates Studied with Rapid Freeze-Quench and Electron Paramagnetic Resonance Spectroscopy.

机译:核苷三磷酸核糖还原酶反应:机理和中间体的快速冷冻猝灭和电子顺磁共振光谱研究。

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摘要

Ribonulceotide reductases (RNRs) are present in all cellular non-parasitic organisms. The reaction catalyzed by these enzymes is the only known source of de novo precursors for DNA replication and repair. RNRs constitute potential targets for the development of antineoplastic, antiproliferative and antimicrobial therapeutic agents.;All RNRs have in common the use of metallocofactors for the generation of a protein-based thiyl radical that is transferred to the substrate where it effects the reduction reaction. Ribonucleotide reductase from Lactobacillus leichmannii (RTPR) uses homolysis of the C-Co bond of adenosylcobalamin (AdoCbl) to produce this essential radical. AdoCbl-dependent enzymes produce greater than 11 orders of magnitude acceleration of the C-Co bond homolysis compared to the corresponding rates free in solution. In the case of RTPR, binding of an allosteric effector to the enzyme triggers C-Co bond homolysis and produces a strongly exchange-coupled thiyl radical-cob(II)alamin system. This thesis work employs multi-frequency electron paramagnetic resonance spectroscopy (EPR) in conjunction with innovative rapid freeze-quench technology (RFQ) to explore this system.;These studies have refined the size of the exchange coupling (J ex) parameter and the values of the thiyl radical g tensor. The g tensor indicates that the thiyl radical is hydrogen-bonded. Jex is much larger than previously estimated, and is larger than would be predicted for two paramagnets separated by 6.6 A in vacuo. The magnitude of the exchange coupling parameter suggests that the interaction is mediated by intervening molecular orbitals. Overall, these results represent the first experimental observation of interactions in the active site of a catalytically intact RTPR.;Multifrequency EPR approach entails examination of a sample with at least two EPR frequencies that are well separated on the spectrum (e.g. 9 GHz and 130 GHz), and offers many potential advantages over a single-frequency approach. However, 130 GHz EPR has stringent requirements for the sample form and consistency. A key part of this thesis work has been the development of a unique RFQ apparatus for the production of samples for HF EPR spectroscopy. This technological innovation is compatible with a broad range of spectroscopic techniques, and can be easily adopted by other researchers.
机译:核糖核苷酸还原酶(RNR)存在于所有细胞性非寄生生物中。这些酶催化的反应是DNA复制和修复的从头已知前体的唯一已知来源。 RNR构成开发抗肿瘤,抗增殖和抗微生物治疗剂的潜在靶标。所有RNR共同使用金属因子来生成基于蛋白质的硫代自由基,该自由基被转移到底物上,从而影响还原反应。来自莱希曼氏乳杆菌(RTPR)的核糖核苷酸还原酶利用腺苷钴胺素(AdoCbl)的C-Co键均质化来产生此基本自由基。与溶液中游离的相应速率相比,AdoCb1依赖性酶可产生大于11个数量级的C-Co键均质加速。在RTPR的情况下,变构效应物与酶的结合会触发C-Co键均质化,并产生强交换耦合的噻吩基-玉米芯(II)阿拉明系统。本文工作采用多频电子顺磁共振波谱(EPR)结合创新的快速冷冻猝灭技术(RFQ)来探索该系统。这些研究完善了交换耦合(J ex)参数的大小和值噻吩基g张量。 g张量表明该硫烷基是氢键合的。杰克斯比以前估计的要大得多,并且比在真空中被6.6 A分开的两个顺磁体所预期的要大。交换耦合参数的大小表明相互作用是由分子轨道介导的。总的来说,这些结果代表了在催化完好的RTPR活性位点相互作用的第一个实验观察结果;多频EPR方法需要检查至少两个在频谱上分离良好的EPR频率的样品(例如9 GHz和130 GHz ),并且比单频方法具有许多潜在的优势。但是,130 GHz EPR对样本形式和一致性有严格的要求。本论文工作的关键部分是开发一种独特的RFQ设备,用于生产HF EPR光谱样品。这项技术创新与广泛的光谱技术兼容,并且可以被其他研究人员轻松采用。

著录项

  • 作者

    Manzerova, Julia.;

  • 作者单位

    Yeshiva University.;

  • 授予单位 Yeshiva University.;
  • 学科 Biology Molecular.;Chemistry Biochemistry.;Biophysics General.
  • 学位 Ph.D.
  • 年度 2010
  • 页码 192 p.
  • 总页数 192
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

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