Proton-coupled electron transfer constitutes the photoactivation mechanism of the plant photoreceptor UVR8 (cover article and editor’s highlight)

T. Mathes; M. Heilmann; A. Pandit; J. Zhu; J. Ravensbergen; M. Kloz; Y. Fu; B.O. Smith; J.M. Christie; G.I. Jenkins; J.T.M. Kennis

doi:10.1021/jacs.5b01177

Proton-coupled electron transfer constitutes the photoactivation mechanism of the plant photoreceptor UVR8 (cover article and editor’s highlight)

T. Mathes, M. Heilmann, A. Pandit, J. Zhu, J. Ravensbergen, M. Kloz, Y. Fu, B.O. Smith, J.M. Christie, G.I. Jenkins, J.T.M. Kennis

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

Abstract

UVR8 is a novel UV-B photoreceptor that regulates a range of plant responses and is already used as a versatile optogenetic tool. Instead of an exogenous chromophore, UVR8 uniquely employs tryptophan side chains to accomplish UV-B photoreception. UV-B absorption by homodimeric UVR8 induces monomerization and hence signaling, but the underlying photodynamic mechanisms are not known. Here, by using a combination of time-resolved fluorescence and absorption spectroscopy from femto- to microseconds, we provide the first experimental evidence for the UVR8 molecular signaling mechanism. The results indicate that tryptophan residues at the dimer interface engage in photoinduced proton coupled electron transfer reactions that induce monomerization. (Graph Presented).

Original language	English
Pages (from-to)	8113-8120
Journal	Journal of the American Chemical Society
Volume	137
Issue number	25
DOIs	https://doi.org/10.1021/jacs.5b01177
Publication status	Published - 2015

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Mathes, T., Heilmann, M., Pandit, A., Zhu, J., Ravensbergen, J., Kloz, M., Fu, Y., Smith, B. O., Christie, J. M., Jenkins, G. I., & Kennis, J. T. M. (2015). Proton-coupled electron transfer constitutes the photoactivation mechanism of the plant photoreceptor UVR8 (cover article and editor’s highlight). Journal of the American Chemical Society, 137(25), 8113-8120. https://doi.org/10.1021/jacs.5b01177

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title = "Proton-coupled electron transfer constitutes the photoactivation mechanism of the plant photoreceptor UVR8 (cover article and editor{\textquoteright}s highlight)",

abstract = "UVR8 is a novel UV-B photoreceptor that regulates a range of plant responses and is already used as a versatile optogenetic tool. Instead of an exogenous chromophore, UVR8 uniquely employs tryptophan side chains to accomplish UV-B photoreception. UV-B absorption by homodimeric UVR8 induces monomerization and hence signaling, but the underlying photodynamic mechanisms are not known. Here, by using a combination of time-resolved fluorescence and absorption spectroscopy from femto- to microseconds, we provide the first experimental evidence for the UVR8 molecular signaling mechanism. The results indicate that tryptophan residues at the dimer interface engage in photoinduced proton coupled electron transfer reactions that induce monomerization. (Graph Presented).",

author = "T. Mathes and M. Heilmann and A. Pandit and J. Zhu and J. Ravensbergen and M. Kloz and Y. Fu and B.O. Smith and J.M. Christie and G.I. Jenkins and J.T.M. Kennis",

year = "2015",

doi = "10.1021/jacs.5b01177",

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journal = "Journal of the American Chemical Society",

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Mathes, T, Heilmann, M, Pandit, A, Zhu, J, Ravensbergen, J, Kloz, M, Fu, Y, Smith, BO, Christie, JM, Jenkins, GI & Kennis, JTM 2015, 'Proton-coupled electron transfer constitutes the photoactivation mechanism of the plant photoreceptor UVR8 (cover article and editor’s highlight)', Journal of the American Chemical Society, vol. 137, no. 25, pp. 8113-8120. https://doi.org/10.1021/jacs.5b01177

TY - JOUR

T1 - Proton-coupled electron transfer constitutes the photoactivation mechanism of the plant photoreceptor UVR8 (cover article and editor’s highlight)

AU - Mathes, T.

AU - Heilmann, M.

AU - Pandit, A.

AU - Zhu, J.

AU - Ravensbergen, J.

AU - Kloz, M.

AU - Fu, Y.

AU - Smith, B.O.

AU - Christie, J.M.

AU - Jenkins, G.I.

AU - Kennis, J.T.M.

PY - 2015

Y1 - 2015

N2 - UVR8 is a novel UV-B photoreceptor that regulates a range of plant responses and is already used as a versatile optogenetic tool. Instead of an exogenous chromophore, UVR8 uniquely employs tryptophan side chains to accomplish UV-B photoreception. UV-B absorption by homodimeric UVR8 induces monomerization and hence signaling, but the underlying photodynamic mechanisms are not known. Here, by using a combination of time-resolved fluorescence and absorption spectroscopy from femto- to microseconds, we provide the first experimental evidence for the UVR8 molecular signaling mechanism. The results indicate that tryptophan residues at the dimer interface engage in photoinduced proton coupled electron transfer reactions that induce monomerization. (Graph Presented).

AB - UVR8 is a novel UV-B photoreceptor that regulates a range of plant responses and is already used as a versatile optogenetic tool. Instead of an exogenous chromophore, UVR8 uniquely employs tryptophan side chains to accomplish UV-B photoreception. UV-B absorption by homodimeric UVR8 induces monomerization and hence signaling, but the underlying photodynamic mechanisms are not known. Here, by using a combination of time-resolved fluorescence and absorption spectroscopy from femto- to microseconds, we provide the first experimental evidence for the UVR8 molecular signaling mechanism. The results indicate that tryptophan residues at the dimer interface engage in photoinduced proton coupled electron transfer reactions that induce monomerization. (Graph Presented).

U2 - 10.1021/jacs.5b01177

DO - 10.1021/jacs.5b01177

M3 - Article

SN - 0002-7863

VL - 137

SP - 8113

EP - 8120

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 25

ER -

Proton-coupled electron transfer constitutes the photoactivation mechanism of the plant photoreceptor UVR8 (cover article and editor’s highlight)

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