Metals (Apr 2019)

Biomineralization of Platinum by <i>Escherichia coli</i>

  • Sahar S Shar,
  • Frank Reith,
  • Esmaeil Shahsavari,
  • Eric M Adetutu,
  • Yuana Nurulita,
  • Khalid Al-hothaly,
  • Nagalakshmi Haleyur,
  • Andrew S. Ball

DOI
https://doi.org/10.3390/met9040407
Journal volume & issue
Vol. 9, no. 4
p. 407

Abstract

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The widespread use of platinum in many industrial applications has led to its release into the environment at elevated concentrations with potential adverse effects on human and environmental health. However, the nature of interactions between mobile platinum complexes and the biotic components of the environment, which are increasingly being exposed to platinum, is poorly studied. The aim of this study was to assess the impact of Pt(IV)-chloride on the growth and activity of the well-characterized bacteria Escherichia coli. Bacterial survival and viability in the presence of different concentrations of Pt(IV)-chloride were assessed in liquid culture, while platinum retention was assessed using experimentation with sand-filled columns with the residual platinum concentration measured by atomic absorption spectroscopy. Bacterial biomineralization of platinum was studied with scanning electron microscopy. The results showed that E. coli tolerated PtCl4 at concentrations of up to 10,000 µM over 21 days and remained viable after 112 days of incubation with PtCl4 at 10,000 µM in sand columns. Overall, 74 wt.% and 50 wt.% of platinum was mineralized in E. coli and blank sand columns, respectively. The results of this study confirm that E. coli is capable of biomineralizing platinum. The results confirm that the interaction of platinum with bacteria is not limited to known metal-resistant bacterial species.

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