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A novel approach in crude enzyme laccase production and application in emerging contaminant bioremediation

Journal Article


Abstract


  • © 2020 by the authors. Laccase enzyme from white-rot fungi is a potential biocatalyst for the oxidation of emerging contaminants (ECs), such as pesticides, pharmaceuticals and steroid hormones. This study aims to develop a three-step platform to treat ECs: (i) enzyme production, (ii) enzyme concentration and (iii) enzyme application. In the first step, solid culture and liquid culture were compared. The solid culture produced significantly more laccase than the liquid culture (447 vs. 74 μM/min after eight days), demonstrating that white rot fungi thrived on a solid medium. In the second step, the enzyme was concentrated 6.6 times using an ultrafiltration (UF) process, resulting in laccase activity of 2980 μM/min. No enzymatic loss due to filtration and membrane adsorption was observed, suggesting the feasibility of the UF membrane for enzyme concentration. In the third step, concentrated crude enzyme was applied in an enzymatic membrane reactor (EMR) to remove a diverse set of ECs (31 compounds in six groups). The EMR effectively removed of steroid hormones, phytoestrogen, ultraviolet (UV) filters and industrial chemical (above 90%). However, it had low removal of pesticides and pharmaceuticals.

Authors


  •   Nguyen, Luong (external author)
  •   Vu, Minh (external author)
  •   Johir, Md (external author)
  •   Pathak, Nirenkumar (external author)
  •   Zdarta, Jakub (external author)
  •   Jesionowski, Teofil (external author)
  •   Semblante, Galilee (external author)
  •   Hai, Faisal I.
  •   Nguyen, Hong Huynh (external author)
  •   Nghiem, Long D. (external author)

Publication Date


  • 2020

Citation


  • Nguyen, L., Vu, M., Johir, M., Pathak, N., Zdarta, J., Jesionowski, T., Semblante, G., Hai, F., Nguyen, H. & Nghiem, L. (2020). A novel approach in crude enzyme laccase production and application in emerging contaminant bioremediation. Processes, 8 (6),

Scopus Eid


  • 2-s2.0-85087496974

Volume


  • 8

Issue


  • 6

Place Of Publication


  • Switzerland

Abstract


  • © 2020 by the authors. Laccase enzyme from white-rot fungi is a potential biocatalyst for the oxidation of emerging contaminants (ECs), such as pesticides, pharmaceuticals and steroid hormones. This study aims to develop a three-step platform to treat ECs: (i) enzyme production, (ii) enzyme concentration and (iii) enzyme application. In the first step, solid culture and liquid culture were compared. The solid culture produced significantly more laccase than the liquid culture (447 vs. 74 μM/min after eight days), demonstrating that white rot fungi thrived on a solid medium. In the second step, the enzyme was concentrated 6.6 times using an ultrafiltration (UF) process, resulting in laccase activity of 2980 μM/min. No enzymatic loss due to filtration and membrane adsorption was observed, suggesting the feasibility of the UF membrane for enzyme concentration. In the third step, concentrated crude enzyme was applied in an enzymatic membrane reactor (EMR) to remove a diverse set of ECs (31 compounds in six groups). The EMR effectively removed of steroid hormones, phytoestrogen, ultraviolet (UV) filters and industrial chemical (above 90%). However, it had low removal of pesticides and pharmaceuticals.

Authors


  •   Nguyen, Luong (external author)
  •   Vu, Minh (external author)
  •   Johir, Md (external author)
  •   Pathak, Nirenkumar (external author)
  •   Zdarta, Jakub (external author)
  •   Jesionowski, Teofil (external author)
  •   Semblante, Galilee (external author)
  •   Hai, Faisal I.
  •   Nguyen, Hong Huynh (external author)
  •   Nghiem, Long D. (external author)

Publication Date


  • 2020

Citation


  • Nguyen, L., Vu, M., Johir, M., Pathak, N., Zdarta, J., Jesionowski, T., Semblante, G., Hai, F., Nguyen, H. & Nghiem, L. (2020). A novel approach in crude enzyme laccase production and application in emerging contaminant bioremediation. Processes, 8 (6),

Scopus Eid


  • 2-s2.0-85087496974

Volume


  • 8

Issue


  • 6

Place Of Publication


  • Switzerland