1978
DOI: 10.1073/pnas.75.9.4069
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Characterization of the blue copper site in oxidized azurin by extended x-ray absorption fine structure: Determination of a short Cu—S distance

Abstract: The primary coordination environment of the "blue" copper ion in oxidized azurin has been elucidated by x-ray absorption spectroscopy. The most striking-feature is the unambiguous presence of a very short copper-sulfur, distance at 2.10 + 0.02 A. Nitrogen ligands, presumed to be from imidazoles, are found at 1.97 A. There is some evidence that the copper coordination sphere may be completed by a second sulfur, the distance of which is determined with much less certainty.Proteins that contain the "blue" (or typ… Show more

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Cited by 74 publications
(47 citation statements)
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“…EXAFS results also provided the first measure of the short Cu-S(thiolate) distance in blue copper proteins 135 and have been used extensively to measure structural changes under varied conditions.…”
Section: Long-range Electron Transfer In Biology)mentioning
confidence: 99%
“…EXAFS results also provided the first measure of the short Cu-S(thiolate) distance in blue copper proteins 135 and have been used extensively to measure structural changes under varied conditions.…”
Section: Long-range Electron Transfer In Biology)mentioning
confidence: 99%
“…Applications to cytochrome P-450 (Cramer, Dawson et aL, 1978) quantified the presence of an axial sulfur ligand. The 'blue copper protein' azufin was found to have an unusually short Cu-S ligand which defined the electronic structure and function of the active site (Tullius et al, 1978).…”
Section: Figure 18mentioning
confidence: 99%
“…In the blue copper proteins, such as plastocyanins, amicyanins, and azurins, the geometry of the copper site is unusual as compared with smallmolecule copper complexes (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14)(15). In particular, the metal sites of blue copper proteins are characterized by a short coppersulfur bond.…”
mentioning
confidence: 99%
“…This unusual geometry is believed to be the main reason for the strong covalency of the metal site (10,16,17) and, thus, responsible for the rapid and long-range electron transfer reactivity (18-22) that characterizes the blue copper proteins. Detailed knowledge of the geometric and electronic metal site structures of the blue copper proteins is, therefore, imperative for understanding the function of the proteins at the molecular level.So far, the geometric structure of the metal site in blue copper proteins (12-14) has been determined primarily by x-ray crystallography and extended x-ray absorption fine structure (3,23,24), whereas the electronic structure of the blue copper site has been determined theoretically from quantum chemical calculations (5, 25-27) and experimentally by x-ray absorption spectroscopy (16, 17), and more recently by nuclear paramagnetic relaxation (28-31). These structures have formed the basis for a detailed understanding of the biological function of the proteins by elucidating the interplay between the electronic and geometric structure of the metal site (8,15,(32)(33)(34).…”
mentioning
confidence: 99%
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