利用新型和商业真菌纤维素酶对蒸汽爆破和乙醇有机溶剂预处理的花旗松进行酶水解。

Enzymatic hydrolysis of steam-exploded and ethanol organosolv-pretreated Douglas-Firby novel and commercial fungal cellulases.

作者信息

Kurabi Arwa, Berlin Alex, Gilkes Neil, Kilburn Douglas, Bura Renata, Robinson Jamie, Markov Aleksandr, Skomarovsky Anton, Gusakov Aleksandr, Okunev Oleg, Sinitsyn Arkady, Gregg David, Xie Dan, Saddler John

机构信息

Forest Products Biotechnology, Department of Wood Science, University of British Columbia, 2424 Main Mall, Vancouver, BC, V6T 1Z4, Canada.

出版信息

Appl Biochem Biotechnol. 2005 Spring;121-124:219-30. doi: 10.1385/abab:121:1-3:0219.

DOI:10.1385/abab:121:1-3:0219

PMID:15917601

Abstract

Softwood residues are the most abundant feedstock available for bioconversion in many northern countries. However, the high costs for delignification and enzymatic hydrolysis currently deter commercialization of softwood bioconversion processes. This study evaluates the abilities of two novel fungal preparations (MSUBC1 and MSUBC2) and two commercial cellulase preparations (TR1 and TR2) to hydrolyze cellulose in Douglas-firpretreated by steam explosion or ethanol organosolv process. MSUBC1 showed significantly better performance than the other preparations on both lignocellulosic substrates. In particular, MSUBC1 achieved >76% cellulose conversion for hydrolysis of steam-exploded Douglas-fir (approximately 44% lignin) after 72 h at low enzyme loading (10 filter paper units/g of cellulose) and without beta-glucosidase supplementation.

摘要

在许多北方国家，软木残渣是可用于生物转化的最丰富的原料。然而，目前脱木质素和酶水解的高成本阻碍了软木生物转化工艺的商业化。本研究评估了两种新型真菌制剂（MSUBC1和MSUBC2）和两种商业纤维素酶制剂（TR1和TR2）对经蒸汽爆破或乙醇有机溶剂法预处理的花旗松中纤维素的水解能力。在两种木质纤维素底物上，MSUBC1的表现均显著优于其他制剂。特别是，在低酶负载量（10滤纸单位/克纤维素）且不添加β-葡萄糖苷酶的情况下，MSUBC1在72小时后对蒸汽爆破处理的花旗松（约44%木质素）进行水解时，实现了>76%的纤维素转化率。

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利用新型和商业真菌纤维素酶对蒸汽爆破和乙醇有机溶剂预处理的花旗松进行酶水解。

Enzymatic hydrolysis of steam-exploded and ethanol organosolv-pretreated Douglas-Firby novel and commercial fungal cellulases.

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