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A photoelectron imaging study of the deprotonated GFP chromophore anion and RNA fluorescent tags

A photoelectron imaging study of the deprotonated GFP chromophore anion and RNA fluorescent tags
A photoelectron imaging study of the deprotonated GFP chromophore anion and RNA fluorescent tags
Green fluorescent protein (GFP), together with its family of variants, is the most widely used fluorescent protein for in vivo imaging. Numerous spectroscopic studies of the isolated GFP chromophore have been aimed at understanding the electronic properties of GFP. Here, we build on earlier work [A. V. Bochenkova, C. Mooney, M. A. Parkes, J. Woodhouse, L. Zhang, R. Lewin, J. M. Ward, H. Hailes, L. H. Andersen and H. H. Fielding, Chem. Sci., 2017, 8, 3154] investigating the impact of fluorine and methoxy substituents that have been employed to tune the electronic structure of the GFP chromophore for use as fluorescent RNA tags. We present photoelectron spectra following photoexcitation over a broad range of wavelengths (364–230 nm) together with photoelectron angular distributions following photoexcitation at 364 nm, which are interpreted with the aid of quantum chemistry calculations. The results support the earlier high-level quantum chemistry calculations that predicted how fluorine and methoxy substituents tune the electronic structure and we find evidence to suggest that the methoxy substituents enhance internal conversion, most likely from the 2ππ* state which has predominantly Feshbach resonance character, to the 1ππ* state.
1463-9076
19911-19922
Woodhouse, Joanne
94d6c235-3e1e-44bc-8379-525862fd382c
Henley, Alice
9006916b-f325-4caf-9e67-bc533f772177
Lewin, Ross
f508175a-03da-451f-9fd8-d8cda31e0e28
Ward, John
8991a8b6-3f17-4ea3-afec-168012c82ca4
Bochenkova, Anastasia
4dc58cf7-3fd8-45a1-9d78-ae7ce1ac9487
Fielding, Helen
08a62947-4748-4638-ac7b-e829a42647a2
Woodhouse, Joanne
94d6c235-3e1e-44bc-8379-525862fd382c
Henley, Alice
9006916b-f325-4caf-9e67-bc533f772177
Lewin, Ross
f508175a-03da-451f-9fd8-d8cda31e0e28
Ward, John
8991a8b6-3f17-4ea3-afec-168012c82ca4
Bochenkova, Anastasia
4dc58cf7-3fd8-45a1-9d78-ae7ce1ac9487
Fielding, Helen
08a62947-4748-4638-ac7b-e829a42647a2

Woodhouse, Joanne, Henley, Alice, Lewin, Ross, Ward, John, Bochenkova, Anastasia and Fielding, Helen (2021) A photoelectron imaging study of the deprotonated GFP chromophore anion and RNA fluorescent tags. Physical Chemistry Chemical Physics, 23, 19911-19922. (doi:10.1039/D1CP01901E).

Record type: Article

Abstract

Green fluorescent protein (GFP), together with its family of variants, is the most widely used fluorescent protein for in vivo imaging. Numerous spectroscopic studies of the isolated GFP chromophore have been aimed at understanding the electronic properties of GFP. Here, we build on earlier work [A. V. Bochenkova, C. Mooney, M. A. Parkes, J. Woodhouse, L. Zhang, R. Lewin, J. M. Ward, H. Hailes, L. H. Andersen and H. H. Fielding, Chem. Sci., 2017, 8, 3154] investigating the impact of fluorine and methoxy substituents that have been employed to tune the electronic structure of the GFP chromophore for use as fluorescent RNA tags. We present photoelectron spectra following photoexcitation over a broad range of wavelengths (364–230 nm) together with photoelectron angular distributions following photoexcitation at 364 nm, which are interpreted with the aid of quantum chemistry calculations. The results support the earlier high-level quantum chemistry calculations that predicted how fluorine and methoxy substituents tune the electronic structure and we find evidence to suggest that the methoxy substituents enhance internal conversion, most likely from the 2ππ* state which has predominantly Feshbach resonance character, to the 1ππ* state.

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Accepted/In Press date: 16 August 2021
Published date: 20 August 2021

Identifiers

Local EPrints ID: 455847
URI: http://eprints.soton.ac.uk/id/eprint/455847
DOI: doi:10.1039/D1CP01901E
ISSN: 1463-9076
PURE UUID: 8e744135-de8c-49df-b242-83c06fcf3444
ORCID for Joanne Woodhouse: ORCID iD orcid.org/0000-0002-0771-5362

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Date deposited: 06 Apr 2022 16:54
Last modified: 17 Mar 2024 03:54

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Contributors

Author: Joanne Woodhouse ORCID iD
Author: Alice Henley
Author: Ross Lewin
Author: John Ward
Author: Anastasia Bochenkova
Author: Helen Fielding

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