Resonance Raman scattering and optical absorption of adrenodoxin and selena-adrenodoxin |
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Authors: | S P Tang T G Spiro K Mukai T Kimura |
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Affiliation: | 1. Department of Chemistry, Princeton University, Princeton New Jersey 08540 USA;2. Department of Chemistry Wayne State University, Detroit, Michigan 48202 USA |
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Abstract: | Raman spectra have been recorded for native and selenium substituted adrenodoxin in dilute solution. Adrenodoxin shows three bands at 397, 350 and 297 cm?1, all polarized, which can be associated with the iron-sulfur core. Selenium substitution leaves the 350 cm?1 band essentially unshifted, but the other two bands disappear and are replaced by new bands at 355 and 263 cm?1. The 350 cm?1 band is assigned to stretching of iron-sulfur (cysteine) bonds, while the 397 and 297 cm?1 bands are associated with vibrations of the labile sulfur atoms. The iron-selenium charge transfer bands were observed at 438 and 480 nm for the oxidized form and at 580 nm for the reduced form. The reduced selena-adrenodoxin displayed absorption maxima at 4, 450 and 5, 550 cm?1, which can be assigned to the d-d transitions of high-spin ferrous ion. From this data and the reported g-values of electron paramagnetic resonance signals, the spin-orbit coupling constants were calculated to be 170 and 210 cm?1 for the respective d-d transitions. |
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Keywords: | labile sulfur atom EPR electron paramagnetic resonance |
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