Cryogenic action spectroscopy of the cyan fluorescent protein chromophore anion

Jordan Dezalay; Eleanor K. Ashworth; Jack Edward Fulker; Mark H. Stockett; Jennifer Anna Noble; James N. Bull

doi:10.1039/D5CP02520F

Cryogenic action spectroscopy of the cyan fluorescent protein chromophore anion

Jordan Dezalay, Eleanor K. Ashworth, Jack Edward Fulker, Mark H. Stockett, Jennifer Anna Noble, James N. Bull

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Abstract

Action spectroscopy at T ≈ 30 K, as a proxy for the visible absorption band, and the branching between electron detachment and dissociation in the cyan fluorescent protein chromophore anion are reported. The cryogenic action spectra, which show the presence of several rotamers, serve as a reference point for interpreting the effect of nano-environmental interactions in complex protein environments. The adiabatic detachment energy for the lowest energy geometric isomer (Z1) is 19 531 ± 40 cm ⁻¹, with the vertical S ₁ ← S ₀ transition energy at 23 734 ± 40 cm ⁻¹. For Z1, the propensity for internal conversion followed by dissociation is low (<10%) compared with autodetachment as the S ₁ ← S ₀ absorption band is entirely situated in the detachment continuum and is classified as a shape resonance.

Original language	English
Pages (from-to)	16738-16743
Number of pages	6
Journal	Physical Chemistry Chemical Physics
Volume	27
Issue number	32
Early online date	16 Jul 2025
DOIs	https://doi.org/10.1039/D5CP02520F
Publication status	Published - 28 Aug 2025

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title = "Cryogenic action spectroscopy of the cyan fluorescent protein chromophore anion",

abstract = "Action spectroscopy at T ≈ 30 K, as a proxy for the visible absorption band, and the branching between electron detachment and dissociation in the cyan fluorescent protein chromophore anion are reported. The cryogenic action spectra, which show the presence of several rotamers, serve as a reference point for interpreting the effect of nano-environmental interactions in complex protein environments. The adiabatic detachment energy for the lowest energy geometric isomer (Z1) is 19 531 ± 40 cm −1, with the vertical S 1 ← S 0 transition energy at 23 734 ± 40 cm −1. For Z1, the propensity for internal conversion followed by dissociation is low (<10%) compared with autodetachment as the S 1 ← S 0 absorption band is entirely situated in the detachment continuum and is classified as a shape resonance.",

author = "Jordan Dezalay and Ashworth, {Eleanor K.} and Fulker, {Jack Edward} and Stockett, {Mark H.} and Noble, {Jennifer Anna} and Bull, {James N.}",

note = "Data availability: The data that support the findings of this study are available from the corresponding author upon reasonable request. Acknowledgements: This work was funded by an EPSRC New Investigator Award (EP/W018691/1 to JNB) and the Swedish Foundation for International Cooperation in Research and Higher Education (STINT) Grant for Internationalisation programme (PT2017-7328 to MHS and JNB). EKA thanks the University of East Anglia for a doctoral studentship.",

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doi = "10.1039/D5CP02520F",

language = "English",

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T1 - Cryogenic action spectroscopy of the cyan fluorescent protein chromophore anion

AU - Dezalay, Jordan

AU - Ashworth, Eleanor K.

AU - Fulker, Jack Edward

AU - Stockett, Mark H.

AU - Noble, Jennifer Anna

AU - Bull, James N.

N1 - Data availability: The data that support the findings of this study are available from the corresponding author upon reasonable request. Acknowledgements: This work was funded by an EPSRC New Investigator Award (EP/W018691/1 to JNB) and the Swedish Foundation for International Cooperation in Research and Higher Education (STINT) Grant for Internationalisation programme (PT2017-7328 to MHS and JNB). EKA thanks the University of East Anglia for a doctoral studentship.

PY - 2025/8/28

Y1 - 2025/8/28

N2 - Action spectroscopy at T ≈ 30 K, as a proxy for the visible absorption band, and the branching between electron detachment and dissociation in the cyan fluorescent protein chromophore anion are reported. The cryogenic action spectra, which show the presence of several rotamers, serve as a reference point for interpreting the effect of nano-environmental interactions in complex protein environments. The adiabatic detachment energy for the lowest energy geometric isomer (Z1) is 19 531 ± 40 cm −1, with the vertical S 1 ← S 0 transition energy at 23 734 ± 40 cm −1. For Z1, the propensity for internal conversion followed by dissociation is low (<10%) compared with autodetachment as the S 1 ← S 0 absorption band is entirely situated in the detachment continuum and is classified as a shape resonance.

AB - Action spectroscopy at T ≈ 30 K, as a proxy for the visible absorption band, and the branching between electron detachment and dissociation in the cyan fluorescent protein chromophore anion are reported. The cryogenic action spectra, which show the presence of several rotamers, serve as a reference point for interpreting the effect of nano-environmental interactions in complex protein environments. The adiabatic detachment energy for the lowest energy geometric isomer (Z1) is 19 531 ± 40 cm −1, with the vertical S 1 ← S 0 transition energy at 23 734 ± 40 cm −1. For Z1, the propensity for internal conversion followed by dissociation is low (<10%) compared with autodetachment as the S 1 ← S 0 absorption band is entirely situated in the detachment continuum and is classified as a shape resonance.

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VL - 27

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EP - 16743

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 32

ER -

Cryogenic action spectroscopy of the cyan fluorescent protein chromophore anion

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Excited state dynamics of shape-shifting molecules

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Cryogenic action spectroscopy of the cyan fluorescent protein chromophore anion

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Excited state dynamics of shape-shifting molecules

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