The deoxygenated form of hemocyanin, containing a dinuclear Cu(I) active site, emits luminescence in the red with maximum around 1.54 mu m(-1) (650 nm). The luminescence of deoxyhemocyanin (deoxy-Hc) from arthropod species is detectable at room temperature, the quantum yield being 2.4-2.7 X 10(-3); in contrast, the emission from molluscan proteins can be detected only at liquid nitrogen temperature. The luminescence emission is an inherent property of the bis[Cu(I)-(histidine)(3)] complex of the deoxygenated form of the protein to which both Cu(I) ions contribute equally to the overall emission. Luminescence is not observed with the oxygenated and the oxidized forms of hemocyanin, in which the metal is in the Cu(II) state, and in the metal-depleted or apo-Hc form. Based on steady-state and time-resolved measurements and references to Cu(I) model compounds, the luminescence emission is attributed to a triplet excited state of a Cu(I)-to-N (histidine) charge transfer transition (3)d-pi*. Acrylamide quenching experiments indicate that the metal active site is very shielded from the solvent. This property of deoxy-Hc enables us to directly follow reactions that modify either the copper oxidation number or the metal-to-protein stoichiometry.

LUMINESCENCE PROPERTIES OF THE DINUCLEAR COPPER COMPLEX IN THE ACTIVE-SITE OF HEMOCYANINS

BELTRAMINI, MARIANO;
1994

Abstract

The deoxygenated form of hemocyanin, containing a dinuclear Cu(I) active site, emits luminescence in the red with maximum around 1.54 mu m(-1) (650 nm). The luminescence of deoxyhemocyanin (deoxy-Hc) from arthropod species is detectable at room temperature, the quantum yield being 2.4-2.7 X 10(-3); in contrast, the emission from molluscan proteins can be detected only at liquid nitrogen temperature. The luminescence emission is an inherent property of the bis[Cu(I)-(histidine)(3)] complex of the deoxygenated form of the protein to which both Cu(I) ions contribute equally to the overall emission. Luminescence is not observed with the oxygenated and the oxidized forms of hemocyanin, in which the metal is in the Cu(II) state, and in the metal-depleted or apo-Hc form. Based on steady-state and time-resolved measurements and references to Cu(I) model compounds, the luminescence emission is attributed to a triplet excited state of a Cu(I)-to-N (histidine) charge transfer transition (3)d-pi*. Acrylamide quenching experiments indicate that the metal active site is very shielded from the solvent. This property of deoxy-Hc enables us to directly follow reactions that modify either the copper oxidation number or the metal-to-protein stoichiometry.
1994
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/132926
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