Tianjin R&D Center for Petrochemical Technology, Tianjin University, Tianjin 300072, China.
Bioresour Technol. 2013 Aug;142:154-61. doi: 10.1016/j.biortech.2013.05.033. Epub 2013 May 20.
β-Glucosidase was shown to have synergistic effects with commercial cellulase in the hydrolysis of acid- and alkali-pretreated corncob, especially at the dose of 5 U/g biomass and 5 or 10 FPU/g biomass. An integrating yeast strain 45# expressing β-glucosidase was constructed that utilized cellobiose quickly and efficiently. Process configurations were compared under conditions of 10% solid content, 10 FPU cellulase/g biomass, 5 U β-glucosidase/g biomass (only used for parental strain W303-1A), 1g/kg yeast loading and 3.3g/kg urea supplementation. While separate hydrolysis and fermentation was optimal for W303-1A and the ethanol titer and yield reached 3.22 g/100g and 75.6% (expressed as a percentage of the theoretical yield), respectively, simultaneous saccharification and fermentation was optimal for strain 45# and the ethanol titer and yield reached 3.31 g/100g and 77.7%, respectively. These results are valuable in optimization of the process configuration and improving the yeast strain selected for cellulosic ethanol production.
β-葡萄糖苷酶与商业纤维素酶在酸预处理和碱预处理玉米芯的水解中表现出协同作用,特别是在 5U/g 生物质和 5 或 10FPU/g 生物质的剂量下。构建了一株表达β-葡萄糖苷酶的整合酵母菌株 45#,该菌株能够快速有效地利用纤维二糖。在 10%固含量、10FPU 纤维素酶/g 生物质、5Uβ-葡萄糖苷酶/g 生物质(仅用于亲本菌株 W303-1A)、1g/kg 酵母添加量和 3.3g/kg 尿素补充的条件下比较了工艺配置。虽然单独的水解和发酵对 W303-1A 是最佳的,乙醇的得率和产率分别达到 3.22g/100g 和 75.6%(以理论产率的百分比表示),但对于菌株 45#,同步糖化和发酵是最佳的,乙醇的得率和产率分别达到 3.31g/100g 和 77.7%。这些结果对于优化工艺配置和提高用于纤维素乙醇生产的酵母菌株选择具有重要价值。
