Resonance Raman spectra of the copper-sulfur chromophores in Achromobacter cycloclastes nitrite reductase.
Resonance Raman spectroscopy at ambient temperature and 77 K has been used to probe the structures of the copper sites in Achromobacter cycloclastes nitrite reductase. This enzyme contains three copper ions per protein molecule and has two principal electronic absorption bands with lambda max values of 458 and 585 nm. Comparisons between the resonance Raman spectra of nitrite reductase and blue copper proteins establish that both the 458 and 585 nm bands are associated with Cu(II)-S(Cys) chromophores. A histidine ligand probably is also present. Different sets of vibrational frequencies are observed with 457.9 nm (ambient) or 476.1 nm (77 K) excitation as compared with 590 nm (ambient) or 593 nm (77 K) excitation. Excitation profiles indicate that the 458 and 585 nm absorption bands are associated with separate [Cu(II)-S(Cys)N(His)] sites or with inequivalent and uncoupled cysteine ligands in the same site. The former possibility is considered to be more likely.[1]References
- Resonance Raman spectra of the copper-sulfur chromophores in Achromobacter cycloclastes nitrite reductase. Dooley, D.M., Moog, R.S., Liu, M.Y., Payne, W.J., LeGall, J. J. Biol. Chem. (1988) [Pubmed]
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