Effect of stacking interactions on charge transfer states in photoswitches interacting with ion channels

Vito F Palmisano; Shirin Faraji; Juan J Nogueira

doi:10.1039/d2cp05678j

Effect of stacking interactions on charge transfer states in photoswitches interacting with ion channels

Vito F Palmisano, Shirin Faraji^*, Juan J Nogueira^*

^*Corresponding author for this work

Theoretical Chemistry

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

The activity of ion channels can be reversibly photo-controlled via the binding of molecular photoswitches, often based on an azobenzene scaffold. Those azobenzene derivatives interact with aromatic residues of the protein via stacking interactions. In the present work, the effect of face-to-face and t-shaped stacking interactions on the excited state electronic structure of azobenzene and p-diaminoazobenzene integrated into the Na V1.4 channel is computationally investigated. The formation of a charge transfer state, caused by electron transfer from the protein to the photoswitches, is observed. This state is strongly red shifted when the interaction takes place in a face-to-face orientation and electron donating groups are present on the aromatic ring of the amino acids. The low-energy charge transfer state can interfere with the photoisomerization process after excitation to the bright state by leading to the formation of radical species.

Original language	English
Pages (from-to)	8331-8335
Number of pages	5
Journal	PPCP : Physical Chemistry Chemical Physics
Volume	25
Issue number	12
DOIs	https://doi.org/10.1039/d2cp05678j
Publication status	Published - 22-Mar-2023

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Effect of stacking interactions on charge transfer states in photoswitches interacting with ion channelsFinal publisher's version, 1.36 MBLicence: CC BY-NC

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title = "Effect of stacking interactions on charge transfer states in photoswitches interacting with ion channels",

abstract = "The activity of ion channels can be reversibly photo-controlled via the binding of molecular photoswitches, often based on an azobenzene scaffold. Those azobenzene derivatives interact with aromatic residues of the protein via stacking interactions. In the present work, the effect of face-to-face and t-shaped stacking interactions on the excited state electronic structure of azobenzene and p-diaminoazobenzene integrated into the Na V1.4 channel is computationally investigated. The formation of a charge transfer state, caused by electron transfer from the protein to the photoswitches, is observed. This state is strongly red shifted when the interaction takes place in a face-to-face orientation and electron donating groups are present on the aromatic ring of the amino acids. The low-energy charge transfer state can interfere with the photoisomerization process after excitation to the bright state by leading to the formation of radical species. ",

author = "Palmisano, {Vito F} and Shirin Faraji and Nogueira, {Juan J}",

year = "2023",

month = mar,

day = "22",

doi = "10.1039/d2cp05678j",

language = "English",

volume = "25",

pages = "8331--8335",

journal = "PPCP : Physical Chemistry Chemical Physics",

issn = "1463-9076",

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TY - JOUR

T1 - Effect of stacking interactions on charge transfer states in photoswitches interacting with ion channels

AU - Palmisano, Vito F

AU - Faraji, Shirin

AU - Nogueira, Juan J

PY - 2023/3/22

Y1 - 2023/3/22

N2 - The activity of ion channels can be reversibly photo-controlled via the binding of molecular photoswitches, often based on an azobenzene scaffold. Those azobenzene derivatives interact with aromatic residues of the protein via stacking interactions. In the present work, the effect of face-to-face and t-shaped stacking interactions on the excited state electronic structure of azobenzene and p-diaminoazobenzene integrated into the Na V1.4 channel is computationally investigated. The formation of a charge transfer state, caused by electron transfer from the protein to the photoswitches, is observed. This state is strongly red shifted when the interaction takes place in a face-to-face orientation and electron donating groups are present on the aromatic ring of the amino acids. The low-energy charge transfer state can interfere with the photoisomerization process after excitation to the bright state by leading to the formation of radical species.

AB - The activity of ion channels can be reversibly photo-controlled via the binding of molecular photoswitches, often based on an azobenzene scaffold. Those azobenzene derivatives interact with aromatic residues of the protein via stacking interactions. In the present work, the effect of face-to-face and t-shaped stacking interactions on the excited state electronic structure of azobenzene and p-diaminoazobenzene integrated into the Na V1.4 channel is computationally investigated. The formation of a charge transfer state, caused by electron transfer from the protein to the photoswitches, is observed. This state is strongly red shifted when the interaction takes place in a face-to-face orientation and electron donating groups are present on the aromatic ring of the amino acids. The low-energy charge transfer state can interfere with the photoisomerization process after excitation to the bright state by leading to the formation of radical species.

U2 - 10.1039/d2cp05678j

DO - 10.1039/d2cp05678j

M3 - Article

C2 - 36883995

SN - 1463-9076

VL - 25

SP - 8331

EP - 8335

JO - PPCP : Physical Chemistry Chemical Physics

JF - PPCP : Physical Chemistry Chemical Physics

IS - 12

ER -

Effect of stacking interactions on charge transfer states in photoswitches interacting with ion channels

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