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Photochemical Tyrosine Oxidation with a Hydrogen-Bonded Proton Acceptor by Bidirectional Proton-Coupled Electron Transfer

机译：光化学氧化酪氨酸与氢键质子受体通过双向质子耦合电子转移

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Amino acid radical generation and transport are fundamentally important to numerous essential biological processes to which small molecule models lend valuable mechanistic insights. Pyridyl-amino acid-methyl esters are appended to a rhenium(I) tricarbonyl 1,10-phenanthroline core to yield rhenium–amino acid complexes with tyrosine ([Re]–Y–OH) and phenylalanine ([Re]–F). The emission from the [Re] center is more significantly quenched for [Re]–Y–OH upon addition of base. Time-resolved studies establish that excited-state quenching occurs by a combination of static and dynamic mechanisms. The degree of quenching depends on the strength of the base, consistent with a proton-coupled electron transfer (PCET) quenching mechanism. Comparative studies of [Re]–Y–OH and [Re]–F enable a detailed mechanistic analysis of a bidirectional PCET process.

机译：氨基酸自由基的产生和运输对于许多重要的生物学过程至关重要，小分子模型为这些生物学过程提供了宝贵的机理见解。吡啶基氨基酸甲酯被附加到tri羰基（I）三羰基1,10-菲咯啉核上，生成rh-氨基酸与酪氨酸（[Re] -Y-OH）和苯丙氨酸（[Re] -F）的复合物。添加碱后，[Re] -Y-OH的[Re]中心发射更加明显地猝灭。时间分辨的研究表明，激发态猝灭是通过静态和动态机制的结合而发生的。淬灭的程度取决于碱的强度，这与质子耦合电子传递（PCET）的淬灭机理一致。对[Re] –Y–OH和[Re] –F的比较研究可以对双向PCET过程进行详细的机械分析。

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Arturo A. Pizano; Jay L. Yang; Daniel G. Nocera;
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年(卷),期 -1(3),8
年度 -1
页码 2457–2461
总页数 13
原文格式 PDF
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1. Photochemical tyrosine oxidation with a hydrogen-bonded proton acceptor by bidirectional proton-coupled electron transfer [J] . Arturo A. Pizano, Jay L. Yang, Daniel G. Nocera Chemical science . 2012,第8期

机译：氢键质子受体通过双向质子耦合电子转移进行光化学酪氨酸氧化
2. Photochemical Tyrosine Oxidation in the Structurally Well-Defined α_3Y Protein: Proton-Coupled Electron Transfer and a Long-Lived Tyrosine Radical [J] . Starla D. Glover, Christine Jorge, Li Liang, Journal of the American Chemical Society . 2014,第40期

机译：结构良好定义的α_3Y蛋白中的光化学酪氨酸氧化：质子耦合的电子转移和酪氨酸自由基的寿命长。
3. Proton-Coupled Electron Transfer from Tyrosine in the Interior of a de novo Protein: Mechanisms and Primary Proton Acceptor [J] . Astrid Nilsen-Moe, Clorice R. Reinhardt, Stark D. Glover, Journal of the American Chemical Society . 2020,第26期

机译：从DE Novo蛋白的内部酪氨酸的质子偶联电子转移：机制和初级质子受体
4. MOLECULAR ELECTROCATALYSTS FOR H2 OXIDATION AND PRODUCTION: PROTON-COUPLED ELECTRON TRANSFER MECHANISMS [C] . Samantha Horvath, Laura E. Fernandez, Alexander V. Soudackov American Chemical Society National Meeting . 2012

机译：用于H2氧化和生产的分子电催化剂：质子耦合电子转移机构
5. The tuning of electron and proton-coupled electron transfer reactions of solar water oxidation : pulsed magnetic resonance spectroscopy studies of photosystem ii. [D] . Coates, Christopher S. 2013

机译：太阳水氧化的电子和质子耦合电子转移反应的调谐：光系统的脉冲磁共振波谱研究ii。
6. Photochemical Tyrosine Oxidation in the StructurallyWell-Defined α3Y Protein: Proton-Coupled ElectronTransfer and a Long-Lived Tyrosine Radical [O] . StarlaD. Glover, Christine Jorge, Li Liang, -1

机译：结构中的光化学酪氨酸氧化定义明确的α3Y蛋白：质子耦合电子转移和酪氨酸自由基自由基
7. Photochemical tyrosine oxidation with a hydrogen-bonded proton acceptor by bidirectional proton-coupled electron transfer [O] . Yang, Jay L., Nocera, Daniel G., Pizano, Arturo Alejandro 2012

机译：通过双向质子耦合电子转移用氢键结合的质子受体氧化光化学酪氨酸

Photochemical Tyrosine Oxidation with a Hydrogen-Bonded Proton Acceptor by Bidirectional Proton-Coupled Electron Transfer

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