Open AccessMetal ion selectivity of the vanadium(v)-reductase Vanabin2
Author(s) -
H. Kitayama,
Sohei Yamamoto,
Hitoshi Michibata,
Tatsuya Ueki
Publication year - 2013
Publication title -
dalton transactions
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.98
H-Index - 184
eISSN - 1477-9234
pISSN - 1477-9226
DOI - 10.1039/c3dt50404b
Subject(s) - vanadium , selectivity , chemistry , divalent , metal , transition metal , inorganic chemistry , glutathione reductase , reductase , glutathione , ion , enzyme , biochemistry , catalysis , organic chemistry , glutathione peroxidase
In a previous study, Vanabin2, a member of a family of V(IV)-binding proteins, or Vanabins, was shown to act as a V(V)-reductase. The current study assesses the ability of Vanabin2 to reduce various transition metal ions in vitro. An NADPH-coupled oxidation assay yielded no evidence of reduction activity with the hexavalent transition metal anions, Mo(VI)O4(2-) and W(VI)O4(2-), or with three divalent cations, Mn(II), Ni(II), and Co(II). Although Cu(II) is readily reduced by glutathione and is gradually oxidized in air, this process was not affected by the presence of Vanabin2. In the experiments conducted thus far, Vanabin2 acts only as a V(V)-reductase. This high selectivity may account for the metal ion selectivity of vanadium accumulation in ascidians.
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