논문 상세보기

Quantum chemical analysis of laccase-mediator system on degradation of environmental pollutants. KCI 등재

  • 언어ENG
  • URLhttps://db.koreascholar.com/Article/Detail/276342
모든 회원에게 무료로 제공됩니다.
한국버섯학회지 (Journal of Mushrooms (J. Mushrooms))
한국버섯학회 (The Korean Society of Mushroom Science)
초록

Many researchers reported biodegradation of environmental pollutants by white-rot fungi. Toward in situ bioremediation, we have investigated biodegradation of environmental pollutants by litter-decomposing fungi. In our results, lignin-degrading enzymes produced from litter-decomposing fungi are thought to participate in degradation of pentachlorophenol (PCP) and 2,4-dichlorophenoxy acetic acid (2,4-DA). Then, we examined the biodegradation of PCP, 2,4-DA and the analogs of 2,4-DA by purified laccase and the role of redox mediator on laccase reaction. Laccase purified from Calvatia craniiformis decomposed phenolic compounds, PCP and 2,4-dichlorophenol (2,4-DP), but not non-phenolic compounds, 2,4-DA and 2,4-dichlorophenoxy ethanol (2,4-DE), even in the presence of redox mediators. To clarify the reaction mechanism between the substrates and redox mediators, quantum chemical analysis was applied using MOPAC 2009 and Gaussian 03. The results of the heat of formation and the perturbation energy showed that even redox mediator radicals could not oxidize the non-phenolic compounds. Previously several reports showed that laccase-redox mediator systems decomposed non-phnolic compounds, but we propose that the system could not react on the chlorinated aromatic compounds based on the result of quantum analysis.

저자
  • M. Tomida(Graduate School of Life & Environmental Science, Kyoto prefectural University.)
  • Y. Hasegawa( Graduate School of Life & Environmental Science, Kyoto prefectural University.) | Y. Hasegawa
  • S. Tsujiyama( Graduate School of Life & Environmental Science, Kyoto prefectural University.) | S. Tsujiyama
  • T. Yoshida( Graduate School of Life & Environmental Science, Kyoto prefectural University.) | T. Yoshida