College of Engineering, China Agricultural University (East Campus), 17 Qing-Hua-Dong-Lu, Hai-Dian District, Beijing 100083, PR China.
College of Engineering, China Agricultural University (East Campus), 17 Qing-Hua-Dong-Lu, Hai-Dian District, Beijing 100083, PR China.
Bioresour Technol. 2018 Oct;265:1-7. doi: 10.1016/j.biortech.2018.05.082. Epub 2018 May 24.
The alkaline hydrogen peroxide (AHP) pretreatment (0.5 g HO/g corn stover, 30 °C, 24 h) removed 91.53% of the initial lignin and 55.77% of the initial hemicellulose in corn stover and afforded a considerable glucose yield (88.34%) through enzymatic hydrolysis. A combination of chemical and microstructural analyses was used to illustrate the mechanism of the effect of AHP pretreatment on enzymatic hydrolysis. During pretreatment, HO-derived radicals effectively spread into and destroyed the cell wall of various parts (vascular bundle sheath, xylem vessels, tracheid, phloem, and parenchyma) of corn stover to remove most of the lignin, acetyl group, and partial hemicellulose. They destroyed the compact structure of the cellulose-hemicellulose-lignin network, increased the cellulase-accessible pore volume by 6 times, doubled the area of exposed cellulose, and decreased the unproductive adsorption of enzymes onto lignin. Combining all the effects, AHP pretreatment effectively improved the cellulose accessibility to enhance the subsequent enzymatic hydrolysis efficiency.
碱性过氧化氢(AHP)预处理(0.5 g HO/g 玉米秸秆,30°C,24 h)去除了玉米秸秆中 91.53%的初始木质素和 55.77%的初始半纤维素,通过酶解获得了相当高的葡萄糖产率(88.34%)。采用化学和微观结构分析相结合的方法,说明了 AHP 预处理对酶解的影响机制。在预处理过程中,HO 衍生的自由基有效地扩散到玉米秸秆的各个部位(维管束鞘、木质部导管、管胞、韧皮部和薄壁组织)并破坏细胞壁,从而去除大部分木质素、乙酰基和部分半纤维素。它们破坏了纤维素-半纤维素-木质素网络的紧密结构,使纤维素酶可及孔体积增加了 6 倍,纤维素暴露面积增加了一倍,并减少了酶对木质素的无效吸附。综合所有这些效果,AHP 预处理有效地提高了纤维素的可及性,从而提高了后续的酶解效率。
