Environment International (Aug 2023)

Substrate‐enzyme interactions and catalytic mechanism in a novel family VI esterase with dibutyl phthalate-hydrolyzing activity

  • Jiliang Cheng,
  • Huan Du,
  • Meng-Sha Zhou,
  • Yuan Ji,
  • You-Qun Xie,
  • He-Biao Huang,
  • Shu-Hui Zhang,
  • Fen Li,
  • Lei Xiang,
  • Quan-Ying Cai,
  • Yan-Wen Li,
  • Hui Li,
  • Meng Li,
  • Hai-Ming Zhao,
  • Ce-Hui Mo

Journal volume & issue
Vol. 178
p. 108054

Abstract

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Microbial degradation has been confirmed as effective and environmentally friendly approach to remediate phthalates from the environment, and hydrolase is an effective element for contaminant degradation. In the present study, a novel dibutyl phthalate (DBP)-hydrolyzing carboxylesterase (named PS06828) from Pseudomonas sp. PS1 was heterogeneously expressed in E. coli, which was identified as a new member of the lipolytic family VI. Purified PS06828 could efficiently degrade DBP with a wide range of temperature (25–37 °C) and pH (6.5–9.0). Multi-spectroscopy methods combined with molecular docking were employed to study the interaction of PS06828 with DBP. Fluorescence and UV–visible absorption spectra revealed the simultaneous presence of static and dynamic component in the fluorescence quenching of PS06828 by DBP. Synchronous fluorescence and circular dichroism spectra showed inconspicuous alteration in micro-environmental polarity around amino acid residues but obvious increasing of α-helix and reducing of β-sheet and random coil in protein conformation. Based on the information on exact binding sites of DBP on PS06828 provided by molecular docking, the catalytic mechanism mediated by key residues (Ser113, Asp166, and His197) was proposed and subsequently confirmed by site-directed mutagenesis. The results can strengthen our mechanistic understanding of family VI esterase involved in hydrolysis of phthalic acid esters, and provide a solid foundation for further enzymatic modification.

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