4.5 Article

Comparative characterization of glyoxal oxidase from Phanerochaete chrysosporium expressed at high levels in Pichia pastoris and Trichoderma reesei

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ENZYME AND MICROBIAL TECHNOLOGY
卷 145, 期 -, 页码 -

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ELSEVIER SCIENCE INC
DOI: 10.1016/j.enzmictec.2021.109748

关键词

Glyoxal oxidase; Biochemical enzyme characterization; Heterologous expression; Pichia pastoris; Trichoderma reesei; Phanerochaete chrysosporium

资金

  1. European Union's Horizon 2020 research and innovation programme (ERC Consolidator Grant OXIDISE) [726396]

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In this study, two efficient processes for the heterologous production of GLOX from Phanerochaete chrysosporium were reported and compared using Pichia pastoris and Trichoderma reesei as expression hosts. The enzymes produced in different hosts showed similar substrate affinities and turnover numbers, with GLOX from both hosts being suitable for further mechanistic characterization and application studies. Additionally, GLOX expressed in Pichia pastoris exhibited slightly higher specific activities due to higher copper loading compared to the enzyme from Trichoderma reesei.
In the secretome of Phanerochaete chrysosporium, a white-rot fungus serving as a model organism to elucidate lignocellulose deconstruction, the copper containing metalloprotein glyoxal oxidase (GLOX) is potentially involved in the crucial production of hydrogen peroxide to fuel and initiate oxidative biomass degradation by lignin-degrading peroxidases. Its ability to oxidize a variety of aldehydes and ?-hydroxy carbonyls with the concomitant reduction of dioxygen to hydrogen peroxide has attracted attention for its application as green biocatalyst in different industrial fields. Here we report and compare two efficient processes for the heterologous production of GLOX from P. chrysosporium using the well-established methanolytic yeast Pichia pastoris and the filamentous fungus Trichoderma reesei as expression hosts with subsequent purification by anion exchange and hydrophobic interaction chromatography. Both processes were shown to be suitable for the production of the target protein at high levels. GLOX produced in T. reesei carries mainly Man5 glycosylation while the enzyme produced in P. pastoris exhibits the typical high-mannose type N-glycosylation. The enzyme expressed in P. pastoris showed slightly higher specific activities which correlates with the higher copper loading of 65.5 % compared to 51.9 % for the protein from T. reesei. The pH optimum for both recombinant proteins was 6.0, however, GLOX activity was found to be highly affected by different buffer species. Both enzymes showed very similar substrate affinities and turnover numbers with the highest catalytic efficiency observed for methylglyoxal. GLOX from both expression hosts is therefore a suitable enzyme for further mechanistic characterization and application studies.

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