A relationship between amide hydrogen bond strength and quinone reduction potential: Implications for photosystem I and bacterial reaction center quinone function.

Feldman KS; Hester-DK 2nd; Golbeck JH

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A relationship between amide hydrogen bond strength and quinone reduction potential: Implications for photosystem I and bacterial reaction center quinone function.

机译：酰胺氢键强度与醌还原电位之间的关系：对光系统I和细菌反应中心醌功能的影响。

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A series of 11 simple phylloquinone derivatives, each lacking the extended phytyl side chain but featuring H-bond donor amides at one or both peri positions, were prepared and some salient physical properties were measured. A correlation between both IR frequency and NMR peak position, as indicators of internal H-bond strength, and the quinone half-wave reduction potential, was observed. These data are consistent with the prevailing hypothesis that quinone carbonyl H-bonding in general, and stronger H-bonds in particular, favorably bias the endogenous quinone's electrochemical potential toward easier reduction.

机译：制备了一系列11种简单的叶绿醌衍生物，每种衍生物都没有延伸的植酸基侧链，但在一个或两个周边位置具有H键供体酰胺，并测量了一些显着的物理性质。观察到作为内部氢键强度指标的IR频率和NMR峰位置与醌半波还原电位之间的相关性。这些数据与普遍的假设一致，即醌羰基的氢键一般，尤其是更强的氢键，有利地使内源性醌的电化学势偏向于易于还原。

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《Bioorganic and Medicinal Chemistry Letters》 |2007年第17期|共4页
作者
Feldman KS; Hester-DK 2nd; Golbeck JH;
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正文语种 eng
中图分类药学;生物化学;
关键词
Quinone; Reduction (chemical); Amides; photosystem I; 酰胺类;

机译：Quinone;Reduction (chemical);Amides;photosystem I;酰胺类;
入库时间 2022-08-18 09:04:21

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1. A relationship between amide hydrogen bond strength and quinone reduction potential: Implications for photosystem I and bacterial reaction center quinone function. [J] . Feldman KS, Hester-DK 2nd, Golbeck JH Bioorganic and Medicinal Chemistry Letters . 2007,第17期

机译：酰胺氢键强度与醌还原电位之间的关系：对光系统I和细菌反应中心醌功能的影响。
2. Protein-cofactor interactions in bacterial reaction centers from Rhodobacter sphaeroides R-26: I. Identification of the ENDOR lines associated with the hydrogen bonds to the primary quinone Q(A)(.-) [J] . Flores M, Isaacson R, Abresch E, Biophysical Journal . 2006,第9期

机译：球形红球菌R-26在细菌反应中心的蛋白质-辅因子相互作用：I.与氢醌键Q（A）（.-）的氢键相关的ENDOR系的鉴定
3. Protein-cofactor interactions in bacterial reaction centers from Rhodobacter sphaeroides R-26: Effect of hydrogen bonding on the electronic and geometric structure of the primary quinone. A density functional theory study [J] . Sinnecker S, Flores M, Lubitz W Physical chemistry chemical physics: PCCP . 2006,第48期

机译：球形红球菌R-26在细菌反应中心的蛋白质-辅因子相互作用：氢键对伯醌的电子和几何结构的影响。密度泛函理论研究
4. RECONSTITUTION OF Q_B FUNCTION WITH NON-NATIVE QUINONE IN BACTERIAL REACTION CENTERS WITH LOW POTENTIAL Q_AS [C] . Xinyu Zhang, Jennifer Madeo, M. R. Gunner International Congress of Photosynthesis . 2005

机译：在细菌反应中心中的非本地醌与低电位Q_As的重建Q_B功能
5. Part I. Extending allenyl azide cycloaddition chemistry: Photochemistry and copper(i) mediation. Part II. Efforts toward the total synthesis of (-)-kinamycin F. Part III. Effect of strength and symmetry of hydrogen bonds on quinone reduction potential [D] . Hester, David Keith, II 2008

机译：第一部分：扩展烯丙基叠氮化物环加成化学：光化学和铜（i）介导。第二部分（-）-卡那霉素F的全合成方面的努力。氢键的强度和对称性对醌还原电位的影响
6. A Relationship between Amide Hydrogen Bond Strength and Quinone Reduction Potential; Implications for Photosystem 1 and Bacterial Reaction Center Quinone Function [O] . Ken S. Feldman, D. Keith Hester II, John H. Golbeck -1

机译：酰胺氢键强度与醌还原电位的关系对光系统1和细菌反应中心醌功能的影响
7. A relationship between amide hydrogen bond strength and quinone reduction potential: Implications for photosystem I and bacterial reaction center quinone function [O] . Ken S. Feldman, D. Keith Hester, John H. Golbeck 2007

机译：酰胺氢键强度与醌减少潜力之间的关系：对照相I和细菌反应中心醌功能的影响
8. Protein Sequence Homologies Between Portions of the L and M Subunits of Reaction Centers of Rhodopseudomonas Capsulata and the Q/sub B/-Protein of Chloroplast Thylakoid Membranes: A Proposed Relation to Quinone-Binding Sites [R] . Hearst, J. E., Sauer, K. 1983

机译：Rhodopseudomonas Capsulata反应中心L和m亚基部分与叶绿体类囊体膜Q / sub B / - 蛋白质之间的蛋白质序列同源性：与醌结合位点的拟议关系

A relationship between amide hydrogen bond strength and quinone reduction potential: Implications for photosystem I and bacterial reaction center quinone function.

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