Journal of Marine Science and Engineering (Feb 2023)

Arsenic Adsorption and Toxicity Reduction of An Exopolysaccharide Produced by <i>Bacillus licheniformis</i> B3-15 of Shallow Hydrothermal Vent Origin

  • Antonio Spanò,
  • Vincenzo Zammuto,
  • Angela Macrì,
  • Eleonora Agostino,
  • Marco Sebastiano Nicolò,
  • Angela Scala,
  • Domenico Trombetta,
  • Antonella Smeriglio,
  • Mariarosaria Ingegneri,
  • Maria Teresa Caccamo,
  • Salvatore Magazù,
  • Miguel Martinez,
  • Carla Geraldine Leon,
  • Salvatore Pietro Paolo Guglielmino,
  • Concetta Gugliandolo

DOI
https://doi.org/10.3390/jmse11020325
Journal volume & issue
Vol. 11, no. 2
p. 325

Abstract

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Exopolysaccharide (EPS) production represents an adaptive strategy developed by extremophiles to cope with environmental stresses. The EPS-producing Bacillus licheniformis B3-15, of shallow marine vent origin (Vulcano Island, Italy), was previously reported as tolerant to arsenate (AsV). In this study, we evaluated: (i) the increasing production of EPS by Bacillus licheniformis B3-15 in the novel SG17 medium; (ii) the arsenic absorption capacity of the EPS by mass spectroscopy; (iii) the functional groups of EPS interacting with As by ATR-FTIR spectroscopy; and (iv) the ability of EPS to prevent arsenic toxicity by the bioluminescent assay. The EPS yield (240 mg L−1) was 45% higher than previously reported. The EPS was mainly constituted of disaccharide repeating units with a manno-pyranosidic configuration and low protein content, attributed to the poly-gamma glutamic acid component as evidenced by NMR analysis. ATR-FTIR spectra indicated that the functional groups of the EPS (O–H, C=O, C–O and C=C and N–O) were involved in the adsorption of the arsenic cations, with greater interactions between EPS and arsenate (AsV) than arsenite (AsIII). Consequently, the EPS at increasing concentration (100 and 300 µg mL−1) adsorbed AsV more efficiently (20.5% and 34.5%) than AsIII (0.7% and 1.8%). The bioluminescence assay showed that the EPS was not toxic, and its addition reduced the toxicity of both As forms by more than twofold. The crude EPS B3-15 could be used in arsenic bioremediation as a possible eco-friendly alternative to other physical or chemical methods.

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