Transient IR spectroscopy identifies key interactions and unravels new intermediates in the photocycle of a bacterial phytochrome

Joachim Kübel; Manoop Chenchiliyan; Saik Ann Ooi; Emil Gustavsson; Linnéa Isaksson; Valentyna Kuznetsova; Janne A. Ihalainen; Sebastian Westenhoff; Michał Maj

doi:10.1039/c9cp06995j

Transient IR spectroscopy identifies key interactions and unravels new intermediates in the photocycle of a bacterial phytochrome

Joachim Kübel
, Manoop Chenchiliyan
, Saik Ann Ooi
, Emil Gustavsson
, Linnéa Isaksson
, Valentyna Kuznetsova
, Janne A. Ihalainen
, Sebastian Westenhoff
, Michał Maj

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

25 Scopus citations

Abstract

Phytochromes are photosensory proteins in plants, fungi, and bacteria, which detect red- and far-red light. They undergo a transition between the resting (Pr) and photoactivated (Pfr) states. In bacterial phytochromes, the Pr-to-Pfr transition is facilitated by two intermediate states, called Lumi-R and Meta-R. The molecular structures of the protein in these states are not known and the molecular mechanism of photoconversion is not understood. Here, we apply transient infrared absorption spectroscopy to study the photocycle of the wild-type and Y263F mutant of the phytochrome from Deinococcus radiodurans (DrBphP) from nano- to milliseconds. We identify two sequentially forming Lumi-R states which differ in the local structure surrounding the carbonyl group of the biliverdin D-ring. We also find that the tyrosine at position 263 alters local structure and dynamics around the D-ring and causes an increased rate of Pfr formation. The results shed new light on the mechanism of light-signalling in phytochrome proteins.

Original language	English
Pages (from-to)	9195-9203
Number of pages	9
Journal	Physical Chemistry Chemical Physics
Volume	22
Issue number	17
DOIs	https://doi.org/10.1039/c9cp06995j
State	Published - 7 May 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© the Owner Societies.

Funding

MC acknowledges the grants UPD2018-0271 and UPD2019-0229 from the Wenner-Gren Foundations. SW thanks the Knut and Alice Wallenberg Foundation for an Academy Fellowship. JAI acknowledges the Academy of Finland (296135), Jane and Aatos Erkko foundation, and the Magnus Ehrnrooth foundation.

Funders	Funder number
Wenner-Gren Stiftelserna
Academy of Finland	296135
Jane ja Aatos Erkon Säätiö
Knut och Alice Wallenbergs Stiftelse
Magnus Ehrnroothin Säätiö

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abstract = "Phytochromes are photosensory proteins in plants, fungi, and bacteria, which detect red- and far-red light. They undergo a transition between the resting (Pr) and photoactivated (Pfr) states. In bacterial phytochromes, the Pr-to-Pfr transition is facilitated by two intermediate states, called Lumi-R and Meta-R. The molecular structures of the protein in these states are not known and the molecular mechanism of photoconversion is not understood. Here, we apply transient infrared absorption spectroscopy to study the photocycle of the wild-type and Y263F mutant of the phytochrome from Deinococcus radiodurans (DrBphP) from nano- to milliseconds. We identify two sequentially forming Lumi-R states which differ in the local structure surrounding the carbonyl group of the biliverdin D-ring. We also find that the tyrosine at position 263 alters local structure and dynamics around the D-ring and causes an increased rate of Pfr formation. The results shed new light on the mechanism of light-signalling in phytochrome proteins.",

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doi = "10.1039/c9cp06995j",

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AU - Kübel, Joachim

AU - Chenchiliyan, Manoop

AU - Ooi, Saik Ann

AU - Gustavsson, Emil

AU - Isaksson, Linnéa

AU - Kuznetsova, Valentyna

AU - Ihalainen, Janne A.

AU - Westenhoff, Sebastian

AU - Maj, Michał

PY - 2020/5/7

Y1 - 2020/5/7

N2 - Phytochromes are photosensory proteins in plants, fungi, and bacteria, which detect red- and far-red light. They undergo a transition between the resting (Pr) and photoactivated (Pfr) states. In bacterial phytochromes, the Pr-to-Pfr transition is facilitated by two intermediate states, called Lumi-R and Meta-R. The molecular structures of the protein in these states are not known and the molecular mechanism of photoconversion is not understood. Here, we apply transient infrared absorption spectroscopy to study the photocycle of the wild-type and Y263F mutant of the phytochrome from Deinococcus radiodurans (DrBphP) from nano- to milliseconds. We identify two sequentially forming Lumi-R states which differ in the local structure surrounding the carbonyl group of the biliverdin D-ring. We also find that the tyrosine at position 263 alters local structure and dynamics around the D-ring and causes an increased rate of Pfr formation. The results shed new light on the mechanism of light-signalling in phytochrome proteins.

AB - Phytochromes are photosensory proteins in plants, fungi, and bacteria, which detect red- and far-red light. They undergo a transition between the resting (Pr) and photoactivated (Pfr) states. In bacterial phytochromes, the Pr-to-Pfr transition is facilitated by two intermediate states, called Lumi-R and Meta-R. The molecular structures of the protein in these states are not known and the molecular mechanism of photoconversion is not understood. Here, we apply transient infrared absorption spectroscopy to study the photocycle of the wild-type and Y263F mutant of the phytochrome from Deinococcus radiodurans (DrBphP) from nano- to milliseconds. We identify two sequentially forming Lumi-R states which differ in the local structure surrounding the carbonyl group of the biliverdin D-ring. We also find that the tyrosine at position 263 alters local structure and dynamics around the D-ring and causes an increased rate of Pfr formation. The results shed new light on the mechanism of light-signalling in phytochrome proteins.

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Transient IR spectroscopy identifies key interactions and unravels new intermediates in the photocycle of a bacterial phytochrome

Abstract

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