Genetically encoded phenyl azide photochemistry drives positive and negative functional modulation of a red fluorescent protein

Samuel C. Reddington; Sarunas Driezis; Andrew M. Hartley; Peter D. Watson; Pierre J. Rizkallah; D. Dafydd Jones

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Genetically encoded phenyl azide photochemistry drives positive and negative functional modulation of a red fluorescent protein

机译：遗传编码苯叠氮化物光化驱动红色荧光蛋白的正和负功能调节

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The photochemical properties of phenyl azide have been exploited to modulate the function of a red autofluorescent protein, mCherry. Using genetic code reprogramming, phenyl azide chemistry has been introduced at functionally strategic positions in mCherry leading to deactivation, activation or enhancement upon UV irradiation.

机译：已经利用苯基叠氮化物的光化学特性来调节红色自过荧光蛋白MCHerry的功能。使用遗传码重编程，苯缀叠氮化物化学在麦克里的功能战略位置引入，导致紫外线照射时失活，激活或提高。

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《RSC Advances》 |2015年第95期|共5页
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Samuel C. Reddington; Sarunas Driezis; Andrew M. Hartley; Peter D. Watson; Pierre J. Rizkallah; D. Dafydd Jones;
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1. Genetically encoded phenyl azide photochemistry drives positive and negative functional modulation of a red fluorescent protein [J] . Reddington Samuel C., Driezis Sarunas, Hartley Andrew M., RSC Advances . 2015,第95期

机译：遗传编码苯叠氮化物光化驱动红色荧光蛋白的正和负功能调节
2. A Semi-Rationally Engineered Bacterial Pyrrolysyl-tRNA Synthetase Genetically Encodes Phenyl Azide Chemistry [J] . Fladischer Patrik, Weingartner Alexandra, Blamauer Johannes, Biotechnology Journal: Healthcare,Nutrition,Technology . 2019,第3期

机译：半理性化工细菌吡咯谷酰-CrNA合成酶遗传编码苯基叠氮化物化学
3. A genetically encoded toolkit of functionalized nanobodies against fluorescent proteins for visualizing and manipulating intracellular signalling [J] . David L. Prole, Colin W. Taylor BMC Biology . 2019,第1期

机译：用于荧光蛋白的官能化纳米型官能化纳米型工具包，用于可视化和操纵细胞内信号传导
4. Highly sensitive optofluidic FRET lasers with genetically encoded fluorescent protein pairs [C] . Chen Qiushu, Zhang Xingwang, Sun Yuze, Conference on Lasers and Electro-Optics . 2013

机译：具有遗传编码的荧光蛋白对的高灵敏度光流体FRET激光器
5. New fluorescent proteins and genetically encoded biosensors [D] . Ai, Huiwang 2008

机译：新的荧光蛋白和遗传编码的生物传感器
6. A genetically encoded toolkit of functionalized nanobodies against fluorescent proteins for visualizing and manipulating intracellular signalling [O] . David L. Prole, Colin W. Taylor 2019

机译：针对荧光蛋白的功能化纳米抗体的遗传编码工具包用于可视化和操纵细胞内信号传导
7. Genetically encoded phenyl azide photochemistry drives positive and negative functional modulation of a red fluorescent protein [O] . Reddington, Samuel C., Driezis, Sarunas, Hartley, Andrew M., 2015

机译：遗传编码的叠氮化苯光化学驱动红色荧光蛋白的正向和负向功能调节

Genetically encoded phenyl azide photochemistry drives positive and negative functional modulation of a red fluorescent protein

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