6533b834fe1ef96bd129de35
RESEARCH PRODUCT
Low temperature optical spectroscopy of cobalt-substituted hemocyanin from Carcinus maenas
Eugenio VitranoValeria MilitelloMaurizio LeoneAntonio CupaneLuigi BubaccoLorenzo CordoneBenedetto SalvatoMariano BeltraminiGian Paolo Roccosubject
biologyLigandMetal ions in aqueous solutionBiophysicsAnalytical chemistryActive sitechemistry.chemical_elementGeneral MedicineChromophoreAtmospheric temperature rangeCrystallographychemistrybiology.proteinSpectroscopyRotational–vibrational couplingCobaltdescription
In this work we report the optical absorption spectra of three cobalt-substituted derivatives of hemocyanin (He) from Carcinus maenas, in the temperature range 300–20 K. The derivatives studied are the mononuclear (Co2+)-He with a single cobalt ion in the “CuA” site, the binuclear (Co2+)2-He and the binuclear mixed metal (Co2+-Cu1+)-He. At low temperature three main bands are clearly resolved; the temperature dependence of their zeroth, first and second moments sheds light on the stereodynamic properties in the surroundings of the chromophore. Within the limits of the reported analysis, in the binuclear derivatives the motions coupled to the chromophore appear to be “essentially harmonic” in the whole temperature range investigated; moreover the data are consistent with the presence of an exogenous ligand strongly bound to the two metal ions. For the mononuclear derivative an “essentially harmonic” behavior is evident only up to 200 K where the data are consistent with the presence of an exogenous ligand much less strongly bound, while at higher temperatures the behavior of the spectra indicates the onset of very large anharmonic contributions to motions, that plausibly involve the above exogenous ligand and, quite likely, the entire active site.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1993-08-01 | European Biophysics Journal |