Frontiers in Bioengineering and Biotechnology (Jul 2015)

Biochemical and structural properties of a thermostable mercuric ion reductase from Metallosphaera sedula

  • Jacob Hansen Artz,
  • Spencer Nathaniel White,
  • Oleg eZadvornyy,
  • Corey James Fugate,
  • Danny eHicks,
  • George eGauss,
  • Matthew ePosewitz,
  • Eric eBoyd,
  • John W. Peters

DOI
https://doi.org/10.3389/fbioe.2015.00097
Journal volume & issue
Vol. 3

Abstract

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Mercuric ion reductase (MerA), a mercury detoxification enzyme, has been tuned by evolution to have high specificity for mercuric ions (Hg2+) and to catalyze their reduction to a more volatile, less toxic elemental form. Here, we present a biochemical and structural characterization of MerA from the thermophilic crenarchaeon Metallosphaera sedula. MerA from M. sedula is a thermostable enzyme, and remains active after extended incubation at 97 °C. At 37 ᵒC, the NADPH oxidation-linked Hg2+ reduction specific activity was found to be 1.9 µmol/min•mg, increasing to 3.1µmol/min•mg at 70 °C. M. sedula MerA crystals were obtained and the structure was solved to 1.6 Å, representing the first solved crystal structure of a thermophilic MerA. Comparison of both the crystal structure and amino acid sequence of MerA from M. sedula to mesophillic counterparts provides new insights into the structural determinants that underpin the thermal stability of the enzyme.

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