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The reactions of exo-cellulase (cellobiohydrolase, CBH) and endo-cellulase (endoglucanase, EG) were investigated by analyzing the insoluble residues of microcrystalline cellulose (MCC) and filter paper cellulose (FPC) during enzymatic hydrolysis. Molecular parameters including molecular weight and its distribution, degree of po-lymerization, and radii of gyration were measured by size exclusion chromatography coupled with multi-angle laser light scattering. No significant change in MCC chains was found during the whole reaction period, indicating that CBH digestion follows a layer-by-layer solubilization manner. This reaction mode might be the major reason for slow enzymatic hydrolysis of cellulose. On the other hand, the degree of polymerization of FPC chains decreases rapidly in the initial reaction, indicating that EG digestion follows a random scission manner, which may create new ends for CBH easily. The slopes of the conformation plots for MCC and FPC increase gradually, indicating stronger chain stiffness of cellulose during hydrolysis. 相似文献
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本系统在详细分析财务评价内容及基本程序的基础上,阐述了数据库语言在工作项目这一领域的具体应用。 相似文献
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木质纤维素甲酸预处理及其组分分离 总被引:4,自引:0,他引:4
以玉米芯为研究对象,提出了常压中温条件下甲酸预处理木质纤维素组分分离的工艺. 在该体系中半纤维素迅速发生水解,大部分木质素被溶解,而纤维素基本不发生水解,经固液分离和甲酸回收实现了玉米芯全组分分离. 考察了预处理温度、时间和甲酸浓度对玉米芯各组分分离效果及水解产物(可溶性糖)含量的影响规律,结果表明,随着反应的进行,甲酸溶液中可溶性糖和木质素量先迅速增大,随后趋于平衡;在50~75℃间对各组分分离的影响不明显. 综合考虑分离效果和成本,选择最佳反应温度为60℃,处理时间为3 h,甲酸浓度为88%(w). 在该条件下,纤维素、半纤维素和木质素回收率分别可达91.4%, 88.5%和63.7%. 相似文献
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以玉米芯为底物,分别考察了Tween 80质量分数、加酶量和底物质量分数对纤维素酶解过程中纤维素酶回收利用的影响规律,结果表明,酶回收率随Tween 80质量分数和加酶量的增加呈先增大再减小的趋势。此外,酶回收率随底物质量分数的增加而逐渐增加,确定重吸附法回收纤维素酶的最优工艺条件:Tween 80质量分数为0.23%;加酶量(以葡聚糖计)为40 FPU/g;底物质量分数为3.6%,在最优条件下,纤维素酶回收率可达83.0%。该研究为木质纤维素生物炼制过程中降低纤维素酶成本提供了有效的解决方法。 相似文献
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