Identification of the CO Stretching Vibrations of FMN and Peptide Backbone by <sup>13</sup>C-Labeling of the LOV2 Domain of <i>Adiantum</i> Phytochrome3

Iwata, Tatsuya; Nozaki, D.; Sato, Yoshiaki; Sato, Kyosuke; Nishina, Yasuzo; Shiga, Kiyoshi; Tokutomi, Satoru; Kandori, Hideki

doi:10.1021/bi061837v

Cited by 47 publications

(74 citation statements)

References 33 publications

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“…This frequency has not been observed experimentally for the Z form of glycine. However, a frequency lying in the range 1,641–1,686 cm −1 is observed in different peptides and is assigned to CO stretching 60 The frequency calculated by us corresponding to CO 2 asymmetric stretching vibration for gly. (H 2 O) 3 lies near the lower end of the aforementioned experimentally observed range.…”

Section: Resultsmentioning

confidence: 86%

“…Vibrational frequencies of N and Z glycine obtained without specific solvent effect and without geometry optimization in aqueous media have been discussed by previous authors 13, 53, 55, 57–60. Here, we would mainly discuss the vibrational frequencies of Z glycine obtained by inclusion of both specific and bulk solvent effects under full geometry optimization in aqueous media.…”

Section: Resultsmentioning

confidence: 91%

“…The present calculated unscaled vibrational frequencies and their assignments for Z glycine and its complexes with one, two, and three water molecules obtained with full geometry optimization in aqueous media are presented in Table I. The theoretically calculated 13, 57 and experimentally observed 59, 60 vibrational frequencies by other authors are also presented in this table for comparison. The calculated vibrational frequencies from one of the previous studies 57 are scaled by the factor 0.9 while those from another work 13 are unscaled.…”

Section: Resultsmentioning

confidence: 95%

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Thoughts on uncitedness: Nobel laureates and Fields medalists as case studies

Guns

2011

J. Am. Soc. Inf. Sci.

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Contrary to what one might expect, Nobel laureates andFields medalists have a rather large fraction (10% or more) of uncited publications.This is the case for (in total) 75 examined researchers from the fields of mathematics (Fields medalists), physics, chemistry, and physiology or medicine (Nobel laureates). We study several indicators for these researchers, including the h-index, total number of publications, average number of citations per publication, the number (and fraction) of uncited publications, and their interrelations. The most remarkable result is a positive correlation between the h-index and the number of uncited articles.We also present a Lotkaian model, which partially explains the empirically found regularities.

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Section: Resultsmentioning

confidence: 86%

Section: Resultsmentioning

confidence: 91%

Section: Resultsmentioning

confidence: 95%

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Thoughts on uncitedness: Nobel laureates and Fields medalists as case studies

Guns

2011

J. Am. Soc. Inf. Sci.

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“…We finally obtained the FAD •− minus FAD ox , the FADH • minus FAD ox , and the FADH − minus FAD ox spectra, from which any difference spectrum among the four redox states can be calculated. Detailed structural analysis requires band assignments using isotope-labeling and site-directed mutagenesis, as we performed for bacteriorhodopsin 44,45 and LOV domain, 46,47 while we discuss the molecular mechanism on the activation of (6-4) PHR based on the present FTIR results below.…”

Section: Discussionmentioning

confidence: 99%

Fourier-Transform Infrared Study of the Photoactivation Process of Xenopus (6–4) Photolyase

Yamada

Iwata

Hitomi³

et al. 2012

Biochemistry

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Photolyases (PHRs) are blue-light activated DNA repair enzymes that maintain genetic integrity by reverting UV-induced photoproducts into normal bases. The FAD chromophore of PHRs has four different redox states: oxidized (FADox), anion radical (FAD•−), neutral radical (FADH•) and fully reduced (FADH−). We combined difference Fourier-transform infrared (FTIR) spectroscopy with UV-visible spectroscopy to study the detailed photoactivation process of Xenopus (6-4) PHR. Two photons produce the enzymatically active, fully reduced PHR from oxidized FAD: FADox is converted to semiquinone via light-induced one-electron and one-proton transfers, and then to FADH− by light-induced one-electron transfer. We successfully trapped FAD•− at 200 K, where electron transfer occurs, but proton transfer does not. UV-visible spectroscopy following 450-nm illumination of FADox at 277 K defined the FADH•/FADH− mixture and allowed calculation of difference FTIR spectra among the four redox states. The absence of a characteristic C=O stretching vibration indicated that the proton donor is not a protonated carboxylic acid. Structural changes in Trp and Tyr are suggested from UV-visible and FTIR analysis of FAD•− at 200 K. Spectral analysis of amide-I vibrations revealed structural perturbation of the protein’s β-sheet during initial electron transfer (FAD•− formation), transient increase in α-helicity during proton transfer (FADH• formation) and reversion to the initial amide-I signal following subsequent electron transfer (FADH− formation). Consequently, in (6-4) PHR, unlike cryptochrome-DASH, formation of enzymatically active FADH− did not perturb α-helicity. Protein structural changes in the photoactivation of (6-4) PHR are discussed on the basis of the present FTIR observations.

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“…They recorded changes in structure between dark and signalling states, including significant structural perturbation in the β -sheet, associated with an initial reorientation of a highly conserved glutamine residue, with subsequent unfolding of the J α -helix. 19, 23-24 Using step scan FTIR, Heberle and co-workers observed distinct phases in the LOV domain temporal response to formation of A 390 , ranging from microseconds to several milliseconds. 25-26 Other relevant time resolved studies of LOV domains include IR studies on the picosecond timescale and electronic spectroscopy on the femtosecond to nanosecond time domain, which resolved triplet formation and decay.…”

Section: Introductionmentioning

confidence: 99%

Femtosecond to Millisecond Dynamics of Light Induced Allostery in the Avena sativa LOV Domain

et al. 2017

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The rational engineering of photosensor proteins underpins the field of optogenetics, in which light is used for spatio-temporal control of cell signalling. Optogenetic elements function by converting electronic excitation of an embedded chromophore into structural changes on the microseconds to seconds timescale, which then modulate the activity of output domains responsible for biological signalling. Using time resolved vibrational spectroscopy coupled with isotope labelling we have mapped the structural evolution of the LOV2 domain of the flavin binding phototropin Avena sativa (AsLOV2) over 10 decades of time, reporting structural dynamics between 100 femtoseconds and one millisecond after optical excitation. The transient vibrational spectra contain contributions from both the flavin chromophore and the surrounding protein matrix. These contributions are resolved and assigned through the study of four different isotopically labelled samples. High signal-to-noise data permit the detailed analysis of kinetics associated with the light activated structural evolution. A pathway for the photocycle consistent with the data is proposed. The earliest events occur in the flavin binding pocket, where a sub-picosecond perturbation of the protein matrix occurs. In this perturbed environment the previously characterised reaction between triplet state isoalloxazine and an adjacent cysteine leads to formation of the adduct state; this step is shown to exhibit dispersive kinetics. This reaction promotes coupling of the optical excitation to successive time-dependent structural changes, initially in the β-sheet then α-helix regions of the AsLOV2 domain, which ultimately gives rise to Jα-helix unfolding, yielding the signalling state. This model is tested through point mutagenesis, elucidating in particular the key mediating role played by Q513.

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Identification of the CO Stretching Vibrations of FMN and Peptide Backbone by ¹³C-Labeling of the LOV2 Domain of Adiantum Phytochrome3

Cited by 47 publications

References 33 publications

Thoughts on uncitedness: Nobel laureates and Fields medalists as case studies

Thoughts on uncitedness: Nobel laureates and Fields medalists as case studies

Fourier-Transform Infrared Study of the Photoactivation Process of Xenopus (6–4) Photolyase

Femtosecond to Millisecond Dynamics of Light Induced Allostery in the Avena sativa LOV Domain

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Identification of the CO Stretching Vibrations of FMN and Peptide Backbone by 13C-Labeling of the LOV2 Domain of Adiantum Phytochrome3

Cited by 47 publications

References 33 publications

Thoughts on uncitedness: Nobel laureates and Fields medalists as case studies

Thoughts on uncitedness: Nobel laureates and Fields medalists as case studies

Fourier-Transform Infrared Study of the Photoactivation Process of Xenopus (6–4) Photolyase

Femtosecond to Millisecond Dynamics of Light Induced Allostery in the Avena sativa LOV Domain

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Identification of the CO Stretching Vibrations of FMN and Peptide Backbone by ¹³C-Labeling of the LOV2 Domain of Adiantum Phytochrome3