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Artificial color tuning of firefly luminescence: Theoretical mutation by tuning electrostatic interactions between protein and luciferin

机译：萤火虫发光的人工颜色调节：通过调节蛋白质与荧光素之间的静电相互作用的理论突变

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Electrostatic interactions between firefly oxyluciferin and the surrounding proteins were analyzed, and the amino acids important for controlling emission energy were identified. We propose Arg223Ala, Glu344Ala, and Asp422Ala mutations in firefly oxyluciferase of Photinus pyralis, which artificially change the luminescence color by tuning the electrostatic effect from the luciferase proteins. In the theoretical mutation simulation, the emission energy of the triple mutant was estimated to be 2.05 eV (602 nm, reddish-orange), which is 0.18 eV lower than that of the wild type (2.23 eV, 557 nm, yellow–green). For calculating the emission energies, we used the symmetry-adapted cluster-configuration interaction (SAC-CI) method.

机译：分析了萤火虫的萤光素与周围蛋白质之间的静电相互作用，并鉴定了对控制发射能量重要的氨基酸。我们提出了Photinus pyralis萤火虫氧化荧光素酶中的Arg223Ala，Glu344Ala和Asp422Ala突变，它们通过调节荧光素酶蛋白的静电作用来人为改变发光颜色。在理论突变模拟中，三重突变体的发射能量估计为2.05 eV（602 nm，红橙色），比野生型（2.23 eV，557 nm，黄绿色）低0.18 eV。。为了计算发射能量，我们使用了对称适应的簇-构型相互作用（SAC-CI）方法。

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Nakatani Naoki; Hasegawa Jun-ya; Nakatsuji Hiroshi;
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年度 2009
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1. Artificial color tuning of firefly luminescence: Theoretical mutation by tuning electrostatic interactions between protein and luciferin [J] . Nakatani N, Hasegawa J, Nakatsuji H Chemical Physics Letters . 2009,第1a3期

机译：萤火虫发光的人工颜色调节：通过调节蛋白质和荧光素之间的静电相互作用的理论突变
2. Red Light in Chemiluminescence and Yellow-Green Light in Bioluminescence: Color-Tuning Mechanism of Firefly, Photinus pyralis, Studied by the Symmetry-Adapted Cluster-Configuration Interaction Method [J] . Naoki Nakatani, Jun-ya Hasegawa, Hiroshi Nakatsuji Journal of the American Chemical Society . 2007,第28期

机译：化学发光中的红光和生物发光中的黄绿光：萤火虫，Photinus pyralis的颜色调节机理，通过对称适应的簇-构型相互作用方法研究
3. Color-tuning mechanism in firefly luminescence: Theoretical studies on fluorescence of oxyluciferin in aqueous solution using time dependent density functional theory [J] . Li ZW, Ren AM, Guo JF, The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2008,第40期

机译：萤火虫发光中的颜色调节机制：基于时变密度泛函理论的水溶液中萤光素的荧光理论研究
4. Evaluation of Bioluminescence Activity of Firefly Luciferin Nucleotide Derivatives [C] . Satoshi IWANO, Saloshi KOJIMA, Takashi HIRANO, Symposium on new synthetic and mechanistic approaches to molecular electroorganic chemistry . 2013

机译：萤火虫荧光素核苷酸衍生物的生物发光活性评价
5. Modulation of the Redox Activity of Colloidal Quantum Dots by Tuning Nanoscale Electrostatic Interactions [D] . He, Chen. 2018

机译：调谐纳米级静电相互作用调节胶体量子点的氧化还原活性
6. The proton and metal binding sites responsible for the pH-dependent green-red bioluminescence color tuning in firefly luciferases [O] . Vadim R. Viviani, Gabriele V. M. Gabriel, Vanessa R. Bevilaqua, -1

机译：质子和金属结合位点负责萤火虫荧光素酶中pH依赖的绿红色生物发光颜色的调节
7. Red Light in Chemiluminescence and Yellow-Green Light in Bioluminescence: Color-Tuning Mechanism of Firefly, Photinus pyralis, Studied by the Symmetry-Adapted Cluster-Configuration Interaction Method [O] . -1

机译：化学发光的红光和生物发光中的黄绿光：通过对称适应的聚类相互作用方法研究萤火虫，Photinus Pyralis的颜色调整机制
8. Influence of Tuned Dampers on Flexure-Aileron Flutter Part I Theoretical Investigation on the Influence of Tuned Damping Devices on Flexure-Aileron Flutter Part II Some Further Calculations on the Influence of Tuned Damping Devices on Flexure-Aileron Flutter Part III Experiments on the Effect of Tuned Damping Devices on Flexure-Aileron Flutter [R] . R. A. FRAZER, W. P. JONES, C. SCRUTON 1952

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Artificial color tuning of firefly luminescence: Theoretical mutation by tuning electrostatic interactions between protein and luciferin

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