Combinatorial Enzyme Approach for Production and Screening of Libraries of Feruloyl Oligosaccharides

D. Wong, S. Batt, W. Orts
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引用次数: 2

Abstract

Combinatorial chemistry involves the chemical or biological synthesis of diverse variation of the structures of a target molecule and the library is then screened for variants of desirable target properties. The approach has been a focus of research activity in drug discovery and biotechnology. This report is to demonstrate the application of enzyme technology using the concept of combinatorial chemistry as a novel approach for the bioconversion of plant fibers. Wheat insoluble fiber was subjected to combinatorial enzyme digestion to create structural variants of feruloyl oligosaccharides (FOS). Fractionation and screening resulted in the isolation of a fraction of bioactive FOS species showing antimicrobial activity. These results demonstrate the feasibil-ity and usefulness of the combinatorial enzyme technique in the transforma-tion of plant biomass to value-added products.
组合酶法制备阿魏酰低聚糖文库及筛选
组合化学涉及目标分子结构的多种变化的化学或生物合成,然后筛选文库以获得所需目标特性的变体。该方法已成为药物发现和生物技术研究活动的焦点。本报告旨在展示利用组合化学概念的酶技术作为植物纤维生物转化的新方法的应用。对小麦不溶性纤维进行组合酶切,制备了低聚阿魏酰低聚糖(FOS)的结构变体。通过分离和筛选,分离出部分具有抗菌活性的FOS。这些结果证明了组合酶技术在植物生物质转化为增值产品方面的可行性和实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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