Exploring PEGylated and immobilized laccases for catechol polymerization

Laccases have been reported for their ability to eliminate hazardous phenolic compounds by oxidative polymerization. The exploitation of the oxidative behavior of different laccase forms, namely free/native, free/PEGylated, immobilized/native and immobilized/PEGylated, was assessed in this study. We...

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Bibliographic Details
Main Author: Jing Su (author)
Other Authors: Noro, Jennifer Martins (author), Fu, Jiajia (author), Wang, Qiang (author), Silva, Carla (author), Cavaco-Paulo, Artur (author)
Format: article
Language:eng
Published: 2018
Subjects:
Laccase
Polyethylene glycol
Immobilization
PEGylation
Polymerization
Science & Technology
Online Access:http://hdl.handle.net/1822/55732
Country:Portugal
Oai:oai:repositorium.sdum.uminho.pt:1822/55732
Description
Summary:Laccases have been reported for their ability to eliminate hazardous phenolic compounds by oxidative polymerization. The exploitation of the oxidative behavior of different laccase forms, namely free/native, free/PEGylated, immobilized/native and immobilized/PEGylated, was assessed in this study. We found that PEGylated and immobilized laccase forms have differentiated catalytic behavior revealing distinct conversion rates and differentiated poly(catechol) chains, as confirmed by UV--Visible spectroscopy, by the total content of OH groups and by MALDI-TOF spectroscopy. The synergy underlying on the immobilized/PEGylated enzyme forms reveal to be responsible for the highest conversion rates and for the longer polymers produced.

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