半纤维素
玉米秸秆
木质素
纤维素
化学
水解
结晶度
干草
木糖
酶水解
纤维素酶
食品科学
制浆造纸工业
农学
生物化学
有机化学
发酵
生物
作物
结晶学
工程类
作者
Chunyan Xu,Fuying Ma,Xiaoyu Zhang,Shulin Chen
摘要
The feasibility of biological pretreatment for subsequent saccharification largely depends upon an effective pretreatment system. A significant enhancement of saccharification was discovered with corn stover pretreated by white rot fungus Irpex lacteus CD2. The highest saccharification ratio reached 66.4%, which was significantly higher than what was reported. Hemicellulose was first destroyed in the process and then lignin. Lignin and hemicellulose were selectively degraded over cellulose, respectively, resulting in increased crystallinity. Enhanced saccharification and the fluctuation in crystallinity together indicated the destruction of the cellulose crystalline structure. Additionally, further studies revealed the disruption of the cell wall and the vital increase of large pores in the pretreated samples, which might be caused by the selective degradation of amorphous components and fungal penetration. Results suggest that I. lacteus has a more efficient degradation system than other reported white rot fungi and can be further explored as an alternative to the existing thermochemical processes.
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