Yu Min Chiou scite author profile

The extradiol-cleaving catechol 2,3-dioxygenase (2,3-CTD) isolated from Pseudomonas putida mt-2 and its catechol and ternary E.S.NO complexes are characterized by X-ray absorption spectroscopy (XAS). The intensities of the 1s-->3d transitions in the pre-edge spectra of the uncomplexed enzyme and its substrate complex show that the Fe(II) center is five-coordinate in both complexes, in agreement with earlier magnetic circular dichroism studies [Mabrouk, P. A., Orville, A. M., Lipscomb, J. D., & Solomon, E. I. (1991) J. Am. Chem. Soc. 113, 4053-4061]. Analysis of the EXAFS region of uncomplexed 2,3-CTD shows five N/O ligand atoms 2.09 A from the active site Fe(II). In the 2,3-CTD.catechol complex, one N/O atom is located at 1.93 A and four N/O type ligands are at 2.10 A. By comparison with [FeII-(6TLA)(DBCH)](ClO4), the first well-characterized mononuclear Fe(II).catechol model complex, the 1.93 A scatterer is proposed to be the oxygen from the deprotonated hydroxyl group of the coordinated catecholate monoanion. Nitric oxide binds to the Fe(II) center in the enzyme.catechol complex without displacing the existing ligands, resulting in the formation of a six-coordinate complex, as indicated by the addition of a new N/O type scatterer at 1.74 A. Bond valence sum (BVS) analysis of the bond lengths derived from the EXAFS fits gives values that correspond to the iron oxidation states established for these complexes, thus lending credence to the coordination environment deduced for the iron center in those complexes. The present study provides the first evidence for a monoanionic substrate binding mode in an extradiol dioxygenase, which is distinct from the dianionic binding mode proposed for intradiol dioxygenases. We speculate that this difference in binding mode may have important ramifications for the site of aromatic ring cleavage in the subsequent oxygen insertion reactions.

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X-ray Absorption Pre-Edge Studies of High-spin Iron(II) Complexes

Randall

et al. 1995

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Fe K-edge X-ray absorption spectroscopy is utilized to study a series of 22 synthetic high-spin iron(I1) complexes.The 1s -3d pre-edge peak of each complex is quantitated and compared with the others in order to explore its correlation with the coordination number and symmetry of the iron center. Like the high-spin iron(II1) complexes (Roe, A. L.; Schneider, D. J.; Mayer, R. J.; Pyrz, J. W.; Que, L., Jr. J . Am. Chem. SOC. 1984,106, 1676-1681, the iron(I1) complexes can be grouped on the basis of their normalized pre-edge peak intensities: the six-coordinate complexes have pre-edge areas from 4 to 6 units, the five-coordinate from 8 to 13 units, and the tetrahedral 16 to 21 units. Three six-coordinate "iron(I1)" nitrosyl complexes examined have pre-edge areas comparable to those of normal iron@) five-coordinate complexes due to their highly distorted geometry. The information obtained here can be used to determine the coordination number of the high-spin iron(I1) centers in iron(I1)-containing proteins and other model complexes and to complement analyses based on extended X-ray absorption fine structure (EXAFS)

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Structure of a Mononuclear Iron(II)-Catecholate Complex and Its Relevance to the Extradiol-Cleaving Catechol Dioxygenases

Chiou

Que²

1995

Inorg. Chem.

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Yu Min Chiou

X-ray absorption spectroscopic studies of the Fe(II) active site of catechol 2,3-dioxygenase. Implications for the extradiol cleavage mechanism

X-ray Absorption Pre-Edge Studies of High-spin Iron(II) Complexes

Structure of a Mononuclear Iron(II)-Catecholate Complex and Its Relevance to the Extradiol-Cleaving Catechol Dioxygenases

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