哈茨木霉固态发酵生产木聚糖酶及其两水相回收

R. Gómez-García, M. A. Medina-Morales, R. Rodríguez, B. Farruggia, G. Picó, Cristóbal N. Aguilar
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引用次数: 4

摘要

近年来,真菌菌株生产木聚糖酶因其高生产率、高催化能力以及在饲料、食品、纺织和生物燃料等不同领域的潜在应用而受到人们的关注。生产酶的传统方法涉及复杂的设备和化学溶剂,而且成本高,收率低。为了获得酶的高产回收率,采用了现代酶提取方法。水两相系统(ATPS)是一种用于酶和其他生物分子的纯化和回收的分离方法。ATPS的优点是易于放大和提取,体积减小,分离速度快。本研究以玉米芯为载体/底物,利用atp对其进行部分回收,采用固态发酵(SSF)法制备哈茨木霉木聚糖酶。在这项研究中,结果显示了一种微生物在玉米芯上生长并产生木聚糖酶的能力。玉米棒材的木聚糖水解活性达到7.85 U/g。该酶被atp高效浓缩。此外,还获得了高的纯化因子(10倍)和可观的酶回收率(%ER)(84%)。
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Production of a xylanase by Trichoderma harzianum (Hypocrea lixii) in solid-state fermentation and its recovery by an aqueous two-phase system
Production of xylanase enzyme by fungi strains has gained interest in the recent years due to its high productivity, high catalytic power, as well as its potential applications in different areas such as feed, food, textile, and biofuel industries. The conventional methodologies, to produce enzymes, involve complex apparatus and chemical solvents and are associated with high costs and lowyield recovery. To obtain the high-yield recovery of the enzymes, modern enzyme extraction methods are taken into account. Aqueous two-phase systems (ATPS) are an alternative separative methodology for the purification and recovery of the enzymes and other biomolecules. The advantages of ATPS are easy scale-up and extraction, volume reduction, and rapid separation. The objective of this study was to produce Trichoderma harzianum xylanase by solid-state fermentation (SSF) using corn cobs as a support/substrate and employing ATPS for its partial recovery. In this study, the results showed the ability of a microorganism to grow on the corn cobs and to produce the xylanase enzyme. Xylanolytic activity reached 7.85 U/g of corn cobs. The enzyme was efficiently concentrated by ATPS. In addition, a high purification factor (10-fold) and considerable enzyme recovery (%ER) (84%) percentage were obtained.
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