玉米芯
生物炼制
化学
减压
产量(工程)
酶
生物化学
食品科学
生物技术
生产(经济)
制浆造纸工业
拉伤
可持续生产
合理设计
代谢工程
生化工程
乙醇燃料
一体化生产
作者
Huijuan Cheng,Zhi-Wen Xie,Xin Wang,Shuo Wang,Wei Ye,Yucai Lü,Da-Chun Gong,Xiao-Tao Shi,Dongxu Ma
标识
DOI:10.1021/acs.jafc.5c16559
摘要
β-Glucosidase (BGL), a pivotal enzyme in lignocellulosic saccharification, has been increasingly recognized as an "emerging green biocatalyst" in modern biorefinery processes. Here, Aspergillus niger An-BGL was rationally engineered to achieve high-level production of BGL under low-cost inducers. Corncob powder served as a cost-effective alternative inducer, enhancing BGL production to 14.2 U/mL. The knockout of CreA and the overexpression of Xln R increased the BGL yield by 75% and 27%, respectively. Combinatorial engineering of CreA and Xln R generated the XO-CK strain, which exhibited a derepression effect at high glucose concentrations. Supplementation with 1% glucose alleviated the delayed enzyme production in the engineered XO-CK strain, resulting in a BGL activity of 31.54 U/mL. Furthermore, integration of the bglA gene into the high-expression amyA site enhanced BGL to 40.68 U/mL. The rational modification strategy for A. niger strain established in this study offers an efficient and sustainable approach for transforming corncob agricultural waste into high-value enzymatic preparations.
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