Abstract
Cellulases are enzymes which catalyse cellulose hydrolysis and are widely used in various industry branches. Lately, their application in treatment of different agroindustrial waste materials which could serve for fuel production is being extensively explored. In order to increase their stability and cost-effectiveness of their usage, application of their immobilized forms are preferred over free enzymes. Hereby, we tested eight different LifetechTM immobilization supports differing in polarity, porosity and functional groups as carriers for Asspergillus Niger cellulase immobilization. Most promising carrier was methacrylate based, with primary amino groups, C6 "space arm" and pores with diameter of 60-120 nm - LifetechTM ECR8409F. For this support, most important immobilization parameters were investigated and after 3 h at pH 6 with initial protein concentration of 23.3 mg/g support immobilized cellulase with 406 IU/g (with carboxymethyl cellulose as a substrate) was obtained. This preparation was successfully applied in the hydrolysis of lignocellulosic fraction of sunflower seed meal, which is widely available byproduct of sunflower seed meal fractionation for protein-rich fractions production. Initial reaction rates and yields of reducing sugars were unchanged comparing to free enzyme, indicating that there were no significant diffusion limitations for substrate to approach active sites of A. Niger cellulase molecules immobilized onto LifetechTM ECR8409F support.
Highlights
Lignocellulosic (LC) materials are very abundant in nature and are generated as waste byproducts of agro-industry
Initial reaction rates and yields of reducing sugars were unchanged comparing to free enzyme, indicating that there were no significant diffusion limitations for substrate to approach active sites of A. niger cellulase molecules immobilized onto LifetechTM ECR8409F support
Highly hydrophobic LifetechTM ECR8285 octadecyl acrylate based carrier was the least suitable, followed by two moderately hydrophobic supports comprised of styrene/divinyl benzene with tertiary (LifetechTM ECR1508) and quaternary (LifetechTM ECR1604) amino groups
Summary
Lignocellulosic (LC) materials are very abundant in nature and are generated as waste byproducts of agro-industry. Immobilization of Aspergillus niger cellulase onto LifetechTM carriers and its application in the hydrolysis of sunflower seed meal lignocellulosic fraction, Food and Feed Research, 46 (2), 161-169, 2019 catalysts demonstrating endo-(1,4)-β-Dglucanase (EC 3.2.1.4.), exo-(1,4)-β-Dglucanase (EC 3.2.1.91) and β-glucosidase (EC 3.2.1.21) activity (Juturu and Wu 2014). At this moment, cellulases are being applied in various industry branches such as agriculture, food, pharmaceutic, textile, paper and pulp (Kuhad, Gupta et al 2011). Vast majority of these preparations is not applicable for natural lignocellulosic substrates conversion due to high price
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