Synchrotron X-ray-Induced Photoreduction of Ferric Myoglobin Nitrite Crystals Gives the Ferrous Derivative with Retention of the O-Bonded Nitrite Ligand

Abstract: Exposure of a single crystal of the nitrite adduct of ferric myoglobin (Mb) at 100 K to highintensity synchrotron X-ray radiation resulted in changes in the UV-vis spectrum that can be attributed to reduction of the ferric compound to the ferrous derivative. We employed correlated single-crystal spectroscopy with crystallography to further characterize this photoproduct. The 1.55 Å resolution crystal structure of the photoproduct reveals retention of the O-binding mode of nitrite to the iron center. The data a… Show more

“…Changes of similar magnitude have been inferred from XPR studies of other metalloproteins and synthetic complexes (53,54,58,60,61,(92)(93)(94). XPR even has been suggested as a tool for studying reduced states of metal cofactors (52,53,56,57).…”

Rapid X-ray Photoreduction of Dimetal-Oxygen Cofactors in Ribonucleotide Reductase

“…Changes of similar magnitude have been inferred from XPR studies of other metalloproteins and synthetic complexes (53,54,58,60,61,(92)(93)(94). XPR even has been suggested as a tool for studying reduced states of metal cofactors (52,53,56,57).…”

Rapid X-ray Photoreduction of Dimetal-Oxygen Cofactors in Ribonucleotide Reductase

“…4 have been obtained under OER conditions with less Fe incorporation. If X-rayinduced photoreduction were to give rise to this <1-eV change in edge energy (50,51), we would expect a systematic, instantaneous photoreduction across the different films. However, spectral changes do not change over multiple scans, suggesting that photoreduction of the film is not occurring upon continuous X-ray exposure.…”

Influence of iron doping on tetravalent nickel content in catalytic oxygen evolving films

“…When performing XAS in the hard X-ray range (>2 keV), the energy (E) range of protein crystallography, one can for example study the metal K-edges of transition metal containing compounds. Here it is not the fading of diffraction spots, but the photoreduction of metal ions that is often readily observed, for example in references [53][54][55][56][57][58][59][60][61][62][63]. It is not our intention here to review the literature on metal K-edge XAS acquisition induced photoreduction, but it is important to note that metal photoreduction has been reported to occur below (1-2 orders of magnitude is not uncommon) crystallography's Henderson limit [59,61].…”

A close look at dose: Toward L-edge XAS spectral uniformity, dose quantification and prediction of metal ion photoreduction