Extended X-ray absorption fine structure and nuclear resonance vibrational spectroscopy reveal that NifB-co, a FeMo-co precursor, comprises a 6Fe core with an interstitial light atom.
Simon J. George,Robert Y. Igarashi,Yuming Xiao,Jose A. Hernandez,Marie Demuez,Dehua Zhao,Yoshitaka Yoda,Paul W. Ludden,Luis M. Rubio,Stephen P. Cramer +9 more
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The results are consistent with the conclusion that the interstitial light atom is already present at an early stage in FeMo-co biosynthesis prior to the incorporation of Mo and R-homocitrate.Abstract:
NifB-co, an Fe-S cluster produced by the enzyme NifB, is an intermediate on the biosynthetic pathway to the iron molybdenum cofactor (FeMo-co) of nitrogenase. We have used Fe K-edge extended X-ray absorption fine structure (EXAFS) spectroscopy together with (57)Fe nuclear resonance vibrational spectroscopy (NRVS) to probe the structure of NifB-co while bound to the NifX protein from Azotobacter vinelandii. The spectra have been interpreted in part by comparison with data for the completed FeMo-co attached to the NafY carrier protein: the NafY:FeMo-co complex. EXAFS analysis of the NifX:NifB-co complex yields an average Fe-S distance of 2.26 A and average Fe-Fe distances of 2.66 and 3.74 A. Search profile analyses reveal the presence of a single Fe-X (X = C, N, or O) interaction at 2.04 A, compared to a 2.00 A Fe-X interaction found in the NafY:FeMo-co EXAFS. This suggests that the interstitial light atom (X) proposed to be present in FeMo-co has already inserted at the NifB-co stage of biosynthesis. The NRVS exhibits strong bands from Fe-S stretching modes peaking around 270, 315, 385, and 408 cm(-1). Additional intensity at approximately 185-200 cm(-1) is interpreted as a set of cluster "breathing" modes similar to those seen for the FeMo-cofactor. The strength and location of these modes also suggest that the FeMo-co interstitial light atom seen in the crystal structure is already in place in NifB-co. Both the EXAFS and NRVS data for NifX:NifB-co are best simulated using a Fe 6S 9X trigonal prism structure analogous to the 6Fe core of FeMo-co, although a 7Fe structure made by capping one trigonal 3S terminus with Fe cannot be ruled out. The results are consistent with the conclusion that the interstitial light atom is already present at an early stage in FeMo-co biosynthesis prior to the incorporation of Mo and R-homocitrate.read more
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References
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John J. Rehr,R. C. Albers +1 more
TL;DR: In this paper, the authors focus on extended x-ray absorption fine structure (EXAFS) well above an X-ray edge, and, to a lesser extent, on xray absorption near-edge structure (XANES) closer to an edge.
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TL;DR: A high-resolution crystallographic analysis of the nitrogenase MoFe-protein reveals a previously unrecognized ligand coordinated to six iron atoms in the center of the catalytically essential FeMo-cofactor, consistent with this newly detected component being a light element, most plausibly nitrogen.
Journal ArticleDOI
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Vinod K. Shah,Winston J. Brill +1 more
TL;DR: The FeMoCo might be used as a model for synthesizing catalysts for chemical nitrogen fixation and knowledge of the structure of this cofactor should be useful for understanding the role of molybdenum at the active site of nitrogenase, role of ligands close to moly bdenum in electron and proton transfer, and the catalytic mechanism of nitrogen fixation.
Journal ArticleDOI
Phonon density of states measured by inelastic nuclear resonant scattering
Wolfgang Sturhahn,Thomas S. Toellner,E. Ercan Alp,X. W. Zhang,Masami Ando,Yoshitaka Yoda,Seishi Kikuta,Makoto Seto,C. W. Kimball,Bogdan Dabrowski +9 more
TL;DR: The phonon density of states was measured by observing the nuclear resonant fluorescence of {sup 57}Fe versus the energy of incident x rays from a synchrotron radiation beam.