A 2.0-A structure of the blue copper protein (cupredoxin) from Alcaligenes faecalis S-6.
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Adman ET, Turley S, Bramson R, Petratos K, Banner D, Tsernoglou D, Beppu T, Watanabe H
A 2.0-A structure of the blue copper protein (cupredoxin) from Alcaligenes faecalis S-6.
J Biol Chem. 1989 Jan 5;264(1):87-99.
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- 2909547 [ View in PubMed]
- Abstract
The structure of a blue copper protein, cupredoxin, from the potent denitrifying bacterium Alcaligenes faecalis S-6, has been determined and refined against 2 A x-ray diffraction data. The agreement between observed and calculated structure factors is 0.159, and estimated errors in coordinates are 0.09-0.15 A. The protein folds in a beta sandwich similar to plastocyanin and azurin and includes features such as a "kink" and a "tyrosine loop" which have been noted previously for these proteins as well as immunoglobulins. The copper is bound by four ligands, in a distorted tetrahedral arrangement, with Cu-S gamma = 2.07 A (Cys-78), Cu-N delta 1 = 2.10 and 2.21 for His-40 and His-81, and Cu-S delta = 2.69 A (Met-86). Two of the ligands are further oriented by hydrogen bonds either to other side chains (Asn-9 to His-40), backbone atoms (NH...S) or a water molecule (to His-40). The methionine ligand has no extra constraints. The C-terminal loop containing three of the ligands is hydrogen-bonded to the strand containing His-40 by hydrogen bonds between the conserved residues Thr-79 and Asn-41. The pronounced dichroism of the crystal is a result of the orientation of the normal to the C beta-S gamma-Cu plane parallel to the crystallographic 6-fold axis.