2022
DOI: 10.1126/sciadv.abm6278
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Light-induced protein structural dynamics in bacteriophytochrome revealed by time-resolved x-ray solution scattering

Abstract: Bacteriophytochromes (BphPs) are photoreceptors that regulate a wide range of biological mechanisms via red light–absorbing (Pr)–to–far-red light–absorbing (Pfr) reversible photoconversion. The structural dynamics underlying Pfr-to-Pr photoconversion in a liquid solution phase are not well understood. We used time-resolved x-ray solution scattering (TRXSS) to capture light-induced structural transitions in the bathy BphP photosensory module of Pseudomonas aeruginosa . Kinetic analysis o… Show more

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Cited by 18 publications
(15 citation statements)
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“…34,35 As a stimulus, light can be sensed by non-photosynthetic microbes via photoreceptor proteins that will activate regulatory networks governing surface attachment, motility, hydrocarbon degradation, biolm formation, and pathogenicity. 32,36 Here, we demonstrate that visible light on its own stimulates autotrophic and heterotrophic ethanol production by C. autoethanogenum via photoexcitation-induced stress. Simultaneously, acetate accumulation was inhibited during growth with either H 2 : CO : CO 2 or fructose.…”
Section: Introductionmentioning
confidence: 70%
See 1 more Smart Citation
“…34,35 As a stimulus, light can be sensed by non-photosynthetic microbes via photoreceptor proteins that will activate regulatory networks governing surface attachment, motility, hydrocarbon degradation, biolm formation, and pathogenicity. 32,36 Here, we demonstrate that visible light on its own stimulates autotrophic and heterotrophic ethanol production by C. autoethanogenum via photoexcitation-induced stress. Simultaneously, acetate accumulation was inhibited during growth with either H 2 : CO : CO 2 or fructose.…”
Section: Introductionmentioning
confidence: 70%
“…34,35 As a stimulus, light can be sensed by non-photosynthetic microbes via photoreceptor proteins that will activate regulatory networks governing surface attachment, motility, hydrocarbon degradation, biofilm formation, and pathogenicity. 32,36…”
Section: Introductionmentioning
confidence: 99%
“…If the intrinsic time scales of thio‐adduct breakage (picoseconds) (Kennis et al 2004), chain collapse (microseconds) (Hagen and Eaton 2000), protein monomerization (milliseconds) (Miyamori et al 2015), helix‐coil transitions (nanoseconds) (Jas and Kuczera 2018), and side‐chain rotation (picoseconds) (Cousin et al 2018), are all much faster than the experimentally determined dark recovery times of the whole population of EL222, what is then the reason for observed lifetimes (multi‐seconds) and what is the nature of the rate‐limiting step? Light‐induced protein structural dynamics and allostery typically follows a defined set of sequential conformational transitions (Gil et al 2017; Berntsson et al 2019; Lee et al 2022). The light‐induced dark‐to‐lit transition of EL222 is not an exception: FMN photochemistry drives, and therefore precedes, all subsequent conformational changes through a cascade of intermediates.…”
Section: Discussionmentioning
confidence: 99%
“…If the intrinsic time scales of thio-adduct breakage (picoseconds) ( 72 ), chain collapse (microseconds) ( 73 ), protein monomerization (milliseconds) ( 74 ), helix-coil transitions (nanoseconds) ( 75 ), and side-chain rotation (picoseconds) ( 76 ), are all much faster than the experimentally determined dark recovery times of the whole population of EL222, what is then the reason for observed lifetimes (multi-seconds) and what is the nature of the rate-limiting step? Light-induced protein structural dynamics and allostery typically follows a defined set of sequential conformational transitions ( 41, 77, 78 ). The light-induced dark-to-lit transition of EL222 is not an exception: FMN photochemistry drives, and therefore precedes, all subsequent conformational changes through a cascade of intermediates.…”
Section: Discussionmentioning
confidence: 99%