The solution structure and backbone dynamics of Cu(I) pseudoazurin, a 123 a
mino acid electron transfer protein from Paracoccus pantotrophus, have been
determined using NMR methods. The structure was calculated to high precisi
on, with a backbone RMS deviation for secondary structure elements of 0.35
+/- 0.06 Angstrom, using 1,498 distance and 5.5 torsion angle constraints.
The protein has a double-wound Greek-key fold with two Lu-helices toward it
s C-terminus. similar to that of its oxidized counterpart determined by X-r
ay crysrallography. Comparison of the Cu(I) solution structure with the X-r
ay structure of the Cu(II) protein shows only small differences in the posi
tions of some of the secondary structure elements. Order parameters S-2, me
asured For amide nitrogens, indicate that the backbone of the protein is ri
gid on the picosecond to nanosecond timescale.