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PDBsum entry 2gi0
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Electron transport
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PDB id
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2gi0
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References listed in PDB file
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Key reference
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Title
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The role of hydrogen bonding at the active site of a cupredoxin: the phe114pro azurin variant.
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Authors
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S.Yanagisawa,
M.J.Banfield,
C.Dennison.
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Ref.
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Biochemistry, 2006,
45,
8812-8822.
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PubMed id
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Abstract
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The Phe114Pro mutation to the cupredoxin azurin (AZ) leads to a number of
structural changes at the active site attributed to deletion of one of the
hydrogen bonds to the Cys112 ligand, removal of the bulky phenyl group from the
hydrophobic patch of the protein, and steric interactions made by the introduced
Pro. The remaining hydrogen bond between the coordinating thiolate and the
backbone amide of Asn47 is strengthened. At the type-1 copper site, the
Cu(II)-O(Gly45) axial interaction decreases, while the metal moves out of the
plane formed by the equatorial His46, Cys112, and His117 ligands, shortening the
bond to the axially coordinating Met121. The resulting distorted tetrahedral
geometry is distinct from the trigonal bipyramidal arrangement in the wild-type
(WT) protein. The unique position of the main S(Cys) --> Cu(II)
ligand-to-metal charge-transfer transition in AZ (628 nm) has shifted in the
Phe114Pro variant to a value that is more typical for cupredoxins (599 nm). This
probably occurs because of the removal of the Phe114-Cys112 hydrogen bond. The
Phe114Pro mutation results in a 90 mV decrease in the reduction potential of AZ,
and removal of the second hydrogen bond to the Cys ligand seems to be the major
cause of this change. The C-terminal His117 ligand does not protonate in the
reduced Phe114Pro AZ variant, which suggests that none of the structural
features altered by the mutation are responsible for the absence of this effect
in the WT protein. Upon reduction, the copper displaces further from the
equatorial ligand plane and the Cu-S(Met121) bond length decreases. These
changes are larger than those seen in the WT protein and contribute to the order
of magnitude decrease in the intrinsic electron-transfer capabilities of the
Phe114Pro variant.
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