混合纤维素酶对纤维素水解的重要性

J. Victoria, A. Odaneth, A. Lali
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引用次数: 14

摘要

木质纤维素生物质的解聚是由酶群催化的,酶群的作用受底物特征和纤维素酶制剂组成的影响。纤维素酶含有多种酶的混合物,其比例决定了生物质的糖化。在本研究中,采用四种不同组成的纤维素酶制剂对两种碱处理的生物质(氨水处理的稻草和氢氧化钠处理的稻草)进行水解,研究其对催化速率、糖化率和糖释放谱的影响。我们发现底物特征影响糖化程度,但对糖释放模式的影响很小。此外,制备的酶至少具有纤维素酶单位(CBU)/羧甲基纤维素(CMC)比(>0.15),可以完全水解为葡萄糖,而改良的酶比可以用于低聚糖合成。因此,用三种主要酶的确定比例制备纤维素酶可以改善糖化,这对于定义以木质纤维素为基础的经济的成功至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Importance of cellulase cocktails favoring hydrolysis of cellulose
ABSTRACT Depolymerization of lignocellulosic biomass is catalyzed by groups of enzymes whose action is influenced by substrate features and the composition of cellulase preparation. Cellulases contain a mixture of variety of enzymes, whose proportions dictate the saccharification of biomass. In the current study, four cellulase preparation varying in their composition were used to hydrolyze two types of alkali-treated biomass (aqueous ammonia-treated rice straw and sodium hydroxide-treated rice straw) to study the effect on catalytic rate, saccharification yields, and sugar release profile. We found that substrate features affected the extent of saccharification but had minimal effect on the sugar release pattern. In addition, complete hydrolysis to glucose was observed with enzyme preparation having at least a cellobiase units (CBU)/carboxymethyl cellulose (CMC) ratio (>0.15), while a modified enzyme ratio can be used for oligosaccharide synthesis. Thus, cellulase preparation with defined ratios of the three main enzymes can improve the saccharification which is of utmost importance in defining the success of lignocellulose-based economies.
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