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Abstract The understanding of how the rhodopsin sequence can be modified to exactly modulate the spectroscopic properties of its retinal chromophore, is a prerequisite for the rational design of more effective optogenetic tools. One key problem is that of establishing the rules to be satisfied for achieving highly fluorescent rhodopsins with a near infrared absorption. In the present paper we use multi-configurational quantum chemistry to construct a computer model of a recently discovered natural rhodopsin, Neorhodopsin, displaying exactly such properties. We show that the model, that successfully replicates the relevant experimental observables, unveils a geometrical and electronic structure of the chromophore featuring a highly diffuse charge distribution along its conjugated chain. The same model reveals that a charge confinement process occurring along the chromophore excited state isomerization coordinate, is the primary cause of the observed fluorescence enhancement.
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Gozem, Samer; Luk, Hoi Ling; Schapiro, Igor; Olivucci, Massimo (, Chemical Reviews)
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Aquilante, Francesco; Autschbach, Jochen; Baiardi, Alberto; Battaglia, Stefano; Borin, Veniamin A.; Chibotaru, Liviu F.; Conti, Irene; De Vico, Luca; Delcey, Mickaël; Fdez. Galván, Ignacio; et al (, The Journal of Chemical Physics)
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Fdez. Galván, Ignacio; Vacher, Morgane; Alavi, Ali; Angeli, Celestino; Aquilante, Francesco; Autschbach, Jochen; Bao, Jie J.; Bokarev, Sergey I.; Bogdanov, Nikolay A.; Carlson, Rebecca K.; et al (, Journal of Chemical Theory and Computation)
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Mroginski, Maria‐Andrea; Adam, Suliman; Amoyal, Gil S.; Barnoy, Avishai; Bondar, Ana‐Nicoleta; Borin, Veniamin A.; Church, Jonathan R.; Domratcheva, Tatiana; Ensing, Bernd; Fanelli, Francesca; et al (, Photochemistry and Photobiology)Abstract This perspective article highlights the challenges in the theoretical description of photoreceptor proteins using multiscale modeling, as discussed at the CECAM workshop in Tel Aviv, Israel. The participants have identified grand challenges and discussed the development of new tools to address them. Recent progress in understanding representative proteins such as green fluorescent protein, photoactive yellow protein, phytochrome, and rhodopsin is presented, along with methodological developments.more » « less
