6 вынікі
The multicopper oxidases catalyze the 4e- reduction of O2 to H2O coupled to the 1e- oxidation of 4 equiv of substrate. This activity requires four Cu atoms, including T1, T2, and coupled binuclear T3 sites. The T2 and T3 sites form a trinuclear cluster (TNC) where O2 is reduced. The T1 is coupled to
The 113Cd NMR spectra of plastocyanin (Spinacea), stellacyanin (Rhus vernicifera), and two azurins (Pseudomonas aeruginosa and Alcaligenes faecalis) have been measured after introducing Cd(II) into the blue copper-binding sites. Relative to Cd(C1O4)2 the chemical shifts are 432, 380, 372, and 379
The structure of the copper site in oxidized and reduced Rhus vernicifera stellacyanin has been studied by X-ray absorption (XAFS) spectroscopy at different pH values. Data for the oxidized protein are consistent with the fourth ligand being an O- or N-donating ligand rather than a cysteine from the
A three-dimensional model of the "blue" copper-glycoprotein stellacyanin from Rhus vernicifera has been derived by computer graphics, energy minimization and molecular dynamics techniques. The initial atomic co-ordinates were obtained by making substitutions and insertions in the known structure of
X-ray absorption spectra are reported for the multi-Cu oxidase Rhus vernicifera laccase in oxidized and fully reduced forms and for laccase from which the type 2 Cu has been depleted (T2D). The structure of the Cu K edge for both preparations shows the presence of CuII and CuI in the oxidized and
A simple colorimetric test for the Cu(I) content in blue copper proteins is described. The procedure is based on the formation of a complex between Cu(I) and 2,2'-biquinoline in an acetic acid medium. Analyses of spinach plastocyanin, Pseudomonas aeruginosa azurin and Rhus vernicifera stellacyanin