David J. Gardenghi scite author profile

The H-cluster is a complex bridged metal assembly at the active site of [FeFe]-hydrogenases that consists of a [4Fe-4S] subcluster bridged to a 2Fe-containing subcluster with unique nonprotein ligands, including carbon monoxide, cyanide, and a dithiolate ligand of unknown composition. Specific biosynthetic gene products (HydE, HydF, and HydG) responsible for the biosynthesis of the H-cluster and the maturation of active [FeFe]-hydrogenase have previously been identified and shown to be required for the heterologous expression of active [FeFe]-hydrogenase [Posewitz, M. C., et al. (2004) J. Biol. Chem. 279, 25711-25720]. The precise roles of the maturation proteins are unknown; the most likely possibility is that they are directed at the synthesis of the entire 6Fe-containing H-cluster, the 2Fe subcluster, or only the unique ligands of the 2Fe subcluster. The spectroscopic and biochemical characterization of HydA(DeltaEFG) (the [FeFe]-hydrogenase structural protein expressed in the absence of the maturation machinery) reported here indicates that a [4Fe-4S] cluster is incorporated into the H-cluster site. The purified protein in a representative preparation contains Fe (3.1 +/- 0.5 Fe atoms per HydA(DeltaEFG)) and S(2-) (1.8 +/- 0.5 S(2-) atoms per HydA(DeltaEFG)) and exhibits UV-visible spectroscopic features characteristic of iron-sulfur clusters, including a bleaching of the visible chromophore upon addition of dithionite. The reduced protein gave rise to an axial S = (1)/(2) EPR signal (g = 2.04 and 1.91) characteristic of a reduced [4Fe-4S](+) cluster. Mossbauer spectroscopic characterization of (57)Fe-enriched HydA(DeltaEFG) provided further evidence of the presence of a redox active [4Fe-4S](2+/+) cluster. Iron K-edge EXAFS data provided yet further support for the presence of a [4Fe-4S] cluster in HydA(DeltaEFG). These spectroscopic studies were combined with in vitro activation studies that demonstrate that HydA(DeltaEFG) can be activated by the specific maturases only when a [4Fe-4S] cluster is present in the protein. In sum, this work supports a model in which the role of the maturation machinery is to synthesize and insert the 2Fe subcluster and/or its ligands and not the entire 6Fe-containing H-cluster bridged assembly.

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Understanding the degradation mechanism of rechargeable lithium/sulfur cells: a comprehensive study of the sulfur–graphene oxide cathode after discharge–charge cycling

Feng

Song

Stolte

et al. 2014

Phys. Chem. Chem. Phys.

117

106

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High Precision K-Shell Photoabsorption Cross Sections for Atomic Oxygen: Experiment and Theory

McLaughlin

Ballance

Bowen

et al. 2013

ApJ

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Photoabsorption of atomic oxygen in the energy region below the 1s −1 threshold in x-ray spectroscopy from Chandra and XMM-Newton is observed in a variety of x-ray binary spectra. Photoabsorption cross sections determined from an R-matrix method with pseudo-states (RMPS) and new, high precision measurements from the Advanced Light Source (ALS) are presented. High-resolution spectroscopy with E/∆E ≈ 4,250 ± 400 was obtained for photon energies from 520 eV to 555 eV at an energy resolution of 124 ± 12 meV FWHM. K-shell photoabsorption cross-section measurements were made with a re-analysis of previous experimental data on atomic oxygen at the ALS. Natural linewidths Γ are extracted for the 1s −1 2s 2 2p 4 ( 4 P)np 3 P • and 1s −1 2s 2 2p 4 ( 2 P)np 3 P • Rydberg resonances series and compared with theoretical predictions. Accurate cross sections and linewidths are obtained for applications in x-ray astronomy. Excellent agreement between theory and the ALS measurements is shown which will have profound implications for the modelling of x-ray spectra and spectral diagnostics.

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Multiedge X-ray Absorption Spectroscopy Part II: XANES Analysis of Bridging and Terminal Chlorides in Hexachlorodipalladate(II) Complex

et al. 2015

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X-ray absorption spectroscopy is a unique experimental technique that can provide ground state electronic structure information about transition metal complexes with unoccupied d-manifold. The quantitative treatments of pre-edge and rising-edge features have already been developed for the sulfur- and chlorine-ligand K-edge excitations. The complementarity of using multiple core excitation edges from hard, tender, and soft X-ray energy regions has been defined for the first paper of this series. The given study provides compelling evidence for the transferability of the empirical transition dipole integral from ligand K-edge to metal L-edge and back to ligand K-edge in the tender X-ray energy range. The case study was performed for a series of homoleptic chloropalladium compounds at the chlorine K- and palladium L-edges. We propose the method described here to be generally applicable for other core level excitations, where complementarity of ground state electronic structural information from XANES analysis can provide the complete electronic structure description.

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