Mayr Sebastian A, Schwaiger Nikolaus, Weber Hedda K, Kovač Janez, Guebitz Georg M, Nyanhongo Gibson S
Institute of Environmental Biotechnology, University of Natural Resources and Life Sciences, Tulln, Austria.
Sappi Papier Holding GmbH, Gratkorn, Austria.
Front Bioeng Biotechnol. 2021 Jul 14;9:697310. doi: 10.3389/fbioe.2021.697310. eCollection 2021.
Enzymatic polymerization of lignin can generate a variety of value-added products concomitantly replacing fossil-based resources. In line with this approach, a laccase from the thermophilic fungus (MtL) was used to couple a hydrophobicity enhancing fluorophenol (FP) molecule, namely 4-[4-(trifluoromethyl)phenoxy]phenol (4,4-F3MPP), as a model substrate onto lignosulfonate (LS). During the coupling reaction changes in fluorescence, phenol content, viscosity and molecular weight (size exclusion chromatography; SEC) were monitored. The effects of enzymatic coupling of FP onto LS on hydrophobicity were investigated by the means of water contact angle (WCA) measurement and determination of swelling capacity. Full polymerization of LS resulting in the production of water-insoluble polymers was achieved at a pH of 7 and 33°C. Incorporation of 2% (w/v) of FP led to an increase in WCA by 59.2% while the swelling capacity showed a decrease by 216.8%. Further, Fourier transform infrared spectroscopy (FTIR) and X-ray photoelectron spectroscopy (XPS) analysis indicated successful covalent coupling of the FP molecule onto LS by an emerging peak at 1,320 cm in the FTIR spectrum and the evidence of Fluor in the XPS spectrum. This study shows the ability of laccase to mediate the tailoring of LS properties to produce functional polymers.
木质素的酶促聚合可以生成多种增值产品,同时替代化石基资源。按照这种方法,使用来自嗜热真菌的漆酶(MtL)将一种疏水性增强的氟苯酚(FP)分子,即4-[4-(三氟甲基)苯氧基]苯酚(4,4-F3MPP)作为模型底物偶联到木质素磺酸盐(LS)上。在偶联反应过程中,监测了荧光、苯酚含量、粘度和分子量(尺寸排阻色谱法;SEC)的变化。通过水接触角(WCA)测量和溶胀能力测定,研究了FP与LS的酶促偶联对疏水性的影响。在pH为7和33°C的条件下实现了LS的完全聚合反应,生成了水不溶性聚合物。加入2%(w/v)的FP导致WCA增加59.
