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In Situ Self-Assembly of Quantum Dots at the Plasma Membrane Mediates Energy Transfer-Based Activation of Channelrhodopsin (Part. Part. Syst. Charact. 7/2021)
Particle & Particle Systems Characterization ( IF 2.7 ) Pub Date : 2021-07-19 , DOI: 10.1002/ppsc.202170014 Okhil K. Nag 1 , Megan E. Muroski 1 , Lauren D. Field 1, 2 , Michael H. Stewart 3 , Eunkeu Oh 3 , Kimihiro Susumu 3, 4 , Joseph R. Spangler 2 , Scott A. Walper 1 , James B. Delehanty 1
Particle & Particle Systems Characterization ( IF 2.7 ) Pub Date : 2021-07-19 , DOI: 10.1002/ppsc.202170014 Okhil K. Nag 1 , Megan E. Muroski 1 , Lauren D. Field 1, 2 , Michael H. Stewart 3 , Eunkeu Oh 3 , Kimihiro Susumu 3, 4 , Joseph R. Spangler 2 , Scott A. Walper 1 , James B. Delehanty 1
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In article 2100053, Delehanty and co-workers describe an energy transfer system for the indirect activation of channelrhodopsin ion channels. A light-harvesting quantum dot (QD) nanoparticle is self-assembled to the exofacial domain of the ion channel. Upon photoexcitation, the QD transfers energy to the retinal moiety in the ion channel, resulting in its photoisomerization and channel opening.
中文翻译:
质膜上量子点的原位自组装介导基于能量转移的视紫红质激活(部分。部分。系统特性。7/2021)
在文章 2100053 中,Delehanty 和同事描述了一种用于间接激活视紫红质离子通道的能量转移系统。光捕获量子点 (QD) 纳米粒子自组装到离子通道的外表面域。在光激发时,QD 将能量转移到离子通道中的视网膜部分,导致其光异构化和通道开放。
更新日期:2021-07-19
中文翻译:
质膜上量子点的原位自组装介导基于能量转移的视紫红质激活(部分。部分。系统特性。7/2021)
在文章 2100053 中,Delehanty 和同事描述了一种用于间接激活视紫红质离子通道的能量转移系统。光捕获量子点 (QD) 纳米粒子自组装到离子通道的外表面域。在光激发时,QD 将能量转移到离子通道中的视网膜部分,导致其光异构化和通道开放。
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