School of Biochemical Engineering, Pontificia Universidad Católica de Valparaíso (PUCV), Valparaíso, Chile.
Department of Biology, Faculty of Chemistry and Biology, Universidad de Santiago de Chile (USACH), Santiago, Chile.
Int J Biol Macromol. 2021 Jan 15;167:1564-1574. doi: 10.1016/j.ijbiomac.2020.11.110. Epub 2020 Nov 17.
Aspergillus oryzae β-galactosidase was immobilized in in-house quaternary ammonium agarose (QAA) and used for the first time in the synthesis of lactulose. A biocatalyst was obtained with a specific activity of 24,690 IU∙g; protein immobilization yield of 97% and enzyme immobilization yield of 76% were obtained at 30 °C in 10 mM phosphate buffer pH 7 for standard size agarose at 100 mg∙g which the maximum protein load of QAA. Highest yield and specific productivity of lactulose were 0.24 g∙g and 9.78 g∙g h respectively, obtained at pH 6, 100 IU∙g lactose enzyme/lactose ratio and 12 lactose/fructose molar ratio. In repeated-batch operation with the immobilized enzyme, the cumulative mass of lactulose per unit mass of contacted protein and cumulative specific productivity were higher than obtained with the soluble enzyme since the first batch. After enzyme activity exhaustion, the enzyme was desorbed and QAA support was reused without alteration in its maximum enzyme load capacity and without detriment in yield, productivity and selectivity in the batch synthesis of lactulose with the resulting biocatalyst. This significantly decreases the economic impact of the support, presenting itself as a distinctive advantage of immobilization by ionic interaction.
米曲霉β-半乳糖苷酶被固定在自制的季铵琼脂糖(QAA)上,并首次用于乳果糖的合成。在 30°C 下,在 10 mM 磷酸盐缓冲液 pH 7 中,对于标准尺寸的琼脂糖在 100 mg·g 下,获得了具有特定活性 24690 IU·g;蛋白固定化收率为 97%,酶固定化收率为 76%,可获得最大的 QAA 蛋白负载量。在 pH 6、乳糖酶/乳糖比为 100 IU·g 和 12 乳糖/果糖摩尔比下,乳果糖的最高产率和比生产率分别为 0.24 g·g 和 9.78 g·g·h。在固定化酶的重复分批操作中,与单位质量接触蛋白的累积乳果糖质量和累积比生产率均高于第一批使用可溶性酶时的情况。在酶活性耗尽后,酶被解吸,QAA 载体可重复使用,而不会改变其最大酶负载能力,也不会降低分批合成乳果糖的产率、生产率和选择性,从而使所得生物催化剂具有优势。这大大降低了载体的经济影响,呈现出离子相互作用固定化的显著优势。
