Probing how initial retinal configuration controls photochemical dynamics in retinal proteins

机译：探测初始视网膜配置如何控制视网膜蛋白中的光化学动态

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The effects of the initial retinal configuration and the active isomerization coordinate on the photochemistry of retinal proteins (RPs) are assessed by comparing photochemical dynamics of two stable retinal ground state configurations (all-trans,15anti vs. 13-cis,15-syn), within two RPs: Bacteriorhodopsin (BR) and Anabaena Sensory Rhodopsin (ASR). Hyperspectral pump-probe spectroscopy shows that photochemistry starting from 13-cis retinal in both proteins is 3-10 times faster than when started in the dll-trans state, suggesting that the hastening is ubiquitous to microbial RPs, regardless of their different biological functions and origin. This may also relate to the known disparity of photochemical rates between microbial RPs and visual pigments. Importance and possible underlying mechanisms are discussed as well.

机译：通过比较两种稳定视网膜地面配置的光化学动态（全逆，15分离，15-SYN），评估初始视网膜构造和活性异构化坐标对视网膜蛋白（RPS）的光明的影响进行评估，在两个RPS中：Bacteriorhodopsin（Br）和Anabaena Sensory rhodopsin（ASR）。高光谱泵探针光谱显示，从两种蛋白质中的13-CIS视网膜开始的光化学比在DLL - 反式状态开始时快3-10倍，表明其普遍存在的微生物RPS，无论其不同的生物学功能如何起源。这也可以涉及微生物RP和视觉颜料之间的光化学速率的已知视差。还讨论了重要性和可能的潜在机制。

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《International Conference on Ultrafast Phenomena》|2013年||共3页
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A. Wand; R. Rozin; T. Eliash; N. Friedman; K.-H. Jung; M. Sheves; S. Ruhman;
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中图分类 TN248-532;
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effects; initial; photochemistry;

机译：效果;初始化;光化学;

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专利

1. Probing how initial retinal configuration controls photochemical dynamics in retinal proteins [J] . A. Wand, R. Rozin, T. Eliash, EPJ Web of Conferences . 2013,第5期

机译：探索初始视网膜构型如何控制视网膜蛋白的光化学动力学
2. Probing the Photochemical Funnel of a Retinal Chromophore Model via Zero-Point Energy Sampling Semiclassical Dynamics [J] . Oliver Weingart, Annapaola Migani, Massimo Olivucci, The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2004,第21期

机译：通过零点能量采样半经典动力学探索视网膜发色团模型的光化学漏斗
3. Probing the Photochemical Funnel of a Retinal Chromophore Model via Zero-Point Energy Sampling Semiclassical Dynamics [J] . Oliver Weingart, Annapaola Migani, Massimo Olivucci, The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2004,第21期

机译：通过零点能量采样半经典动力学探索视网膜发色团模型的光化学漏斗
4. Probing how initial retinal configuration controls photochemical dynamics in retinal proteins [C] . A. Wand, R. Rozin, T. Eliash, International Conference on Ultrafast Phenomena . 2013

机译：探测初始视网膜配置如何控制视网膜蛋白中的光化学动态
5. 1) Probing the wavelength regulation of rhodopsin pigments via de novo protein engineering of a rhodopsin mimic and; 2) Engineering CRABPII as a retinal isomerase and a protein fusion tag [D] . Lee, Kin Sing Stephen 2011

机译：1）通过视紫红质模拟物的从头蛋白质工程研究视紫红质色素的波长调节；以及2）将CRABPII工程化为视网膜异构酶和蛋白质融合标签
6. How a Small Change in Retinal Leads to G-Protein Activation: Initial Events Suggested by Molecular Dynamics Calculations [O] . Paul S. Crozier, Mark J. Stevens, Thomas B. Woolf -1

机译：视网膜的微小变化如何导致G蛋白活化：分子动力学计算表明的初始事件
7. Probing how initial retinal configuration controls photochemical dynamics in retinal proteins [O] . A. Wand, R. Rozin, T. Eliash, 2013

机译：探测初始视网膜配置如何控制视网膜蛋白中的光化学动态

Probing how initial retinal configuration controls photochemical dynamics in retinal proteins

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