Manipulating reduction potentials in an artificial safranin cofactor

Gheevarghese Raju; Joseph Capo; Bruce R. Lichtenstein

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Manipulating reduction potentials in an artificial safranin cofactor

机译：操纵人工藏红素辅因子的还原电位

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Safranines hold great promise as artificial flavin-like electron transfer cofactors with tunable properties. We report the design and chemical synthesis of the p-methoxy derivative of safranine O using a new synthetic route based on the Ulmann condensation. Spectroelectrochemical comparison of the purified parent safranine and this derivative demonstrates that the modification increases its two-electron reduction potential by 125 mV, or 5.75 kcal/mol. This modification also causes redshifts in the absorbance and fluorescence spectra of the cofactor, suggesting that it may find future utility in arrayed sensor applications.

机译：藏红花作为具有可调性质的人造黄素样电子转移辅助因子具有广阔的前景。我们报告了基于Ulmann缩合反应的新合成路线，设计了番红O的对甲氧基衍生物的设计和化学合成。纯化的母体藏红花和该衍生物的光谱电化学比较表明，该修饰将其双电子还原电位提高了125 mV，即5.75 kcal / mol。此修饰还导致辅因子的吸收率和荧光光谱发生红移，表明它可能会在阵列传感器应用中找到未来的用途。

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《Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry》 |2012年第10期|共3页
作者
Gheevarghese Raju; Joseph Capo; Bruce R. Lichtenstein;
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正文语种 eng
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关键词
Safranine; Enzyme design; Reduction potential; Ulmann condensation;

机译：番红花;酶设计;还原电位;乌尔曼缩合;

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1. Manipulating reduction potentials in an artificial safranin cofactor [J] . Gheevarghese Raju, Joseph Capo, Bruce R. Lichtenstein Tetrahedron letters: The International Journal for the Rapid Publication of Preliminary Communications in Organic Chemistry . 2012,第10期

机译：操纵人工藏红素辅因子的还原电位
2. Mathematical Modeling of the Reduction of Safranin onto Chemically Modified Rice Husks in Stirred Tank Reactor Using Response Surface Methodology and Artificial Neural Network [J] . Papita Das Saha Bioremediation journal . 2013,第1期

机译：响应面法和人工神经网络在搅拌釜反应器中将番红花还原成化学修饰的稻壳的数学模型
3. Manipulating Cofactor Binding Thermodynamics in an Artificial Oxygen Transport Protein [J] . Lei Zhang, J. L. Ross Anderson, Ismail Ahmed, Biochemistry . 2011,第47期

机译：在人工氧气转运蛋白中操纵辅因子结合热力学
4. Multi-objective GA for Collision Avoidance on Robot Manipulators Based on Artificial Potential Field [C] . Cesar E. Cea-Montufar, Emmanuel A. Merchan-Cruz, Javier Ramirez-Gordillo, Mexican international conference on artificial intelligence . 2019

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5. PART I. ACETYLENE REDUCTION (NITROGEN FIXATION) AND METABOLIC ACTIVITIES OF SOYBEAN HAVING VARIOUS LEAF AND NODULE WATER POTENTIALS. PART II. LIMITATION OF ACETYLENE REDUCTION (NITROGEN FIXATION) BY PHOTOSYNTHESIS IN SOYBEAN HAVING LOW WATER POTENTIALS. [D] . HUANG, CHI-YING. 1975

机译：第一部分：具有各种叶片和根瘤菌潜力的大豆的乙炔还原（固氮）和代谢活性。第二部分低水势大豆中光合作用对乙炔还原（固氮）的限制。
6. Manipulating Reduction Potentials in an Artificial Safranin Cofactor [O] . Gheevarghese Raju, Joseph Capo, Bruce R. Lichtenstein, -1

机译：在人工野生素辅因子中操纵减少电位
7. Influence of protein interactions on oxidation/reduction midpoint potentials of cofactors in natural and de novo metalloproteins [O] . Olson T.L., Williams J.C., Allen J.P. 2013

机译：蛋白质相互作用对天然和从头金属蛋白中辅因子氧化/还原中点电位的影响

Manipulating reduction potentials in an artificial safranin cofactor

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