CRISPR–Cas9敲除Trctf1基因对里氏木霉不同可溶性诱导物合成纤维素酶的影响

IF 3.3 3区 农林科学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Yudian Chen, Yushan Gao, Zancheng Wang, Nian Peng, Xiaoqin Ran, Ting Chen, Lulu Liu, Yonghao Li
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引用次数: 0

摘要

已知敲除转录抑制因子Trctf1可提高里氏木霉中纤维素诱导的纤维素酶合成的产量。然而,不同的诱导剂具有不同的诱导机制,Trctf1对可溶性诱导剂合成纤维素酶的影响尚不清楚。为了评估Trctf1基因对纤维素酶合成的影响并开发高产纤维素酶菌株,我们使用密码子优化的Cas9蛋白和体外转录的RNA在里氏木霉Rut C30中建立了CRISPR–Cas9基因组编辑系统。本研究表明,当用MGD(葡萄糖和槐花的混合物)诱导时,敲除Trctf1基因的里氏木霉ΔTrctf1在纤维素酶、纤维二水解酶、内切葡聚糖酶和β−葡萄糖苷酶的产生方面没有统计学上的显著差异。然而,当用乳糖诱导时,这些酶的活性分别增加了20.2%、12.4%和12.9%,β−葡萄糖苷酶活性没有统计学上的显著差异。里氏木霉ΔTrctf1产生的纤维素酶在不同诱导剂下对玉米秸秆的水解效率与野生型纤维素酶没有显著差异,表明Trctf1基因缺失对纤维素酶混合物的影响很小。这些发现有助于更好地理解不同可溶性诱导剂调节里氏木霉纤维素酶合成的分子机制,以及高产纤维素酶基因工程菌株的构建。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Influence of Trctf1 Gene Knockout by CRISPR–Cas9 on Cellulase Synthesis by Trichoderma reesei with Various Soluble Inducers
Knockout of the transcriptional repressor Trctf1 is known to enhance the yield of cellulose-induced cellulase synthesis in Trichoderma reesei. However, different inducers possess distinct induction mechanisms, and the effect of Trctf1 on cellulase synthesis with soluble inducers remains unknown. To evaluate the effect of the Trctf1 gene on cellulase synthesis and develop a high-yielding cellulase strain, we established a CRISPR–Cas9 genome editing system in T. reesei Rut C30 using codon-optimized Cas9 protein and in vitro transcribed RNA. This study demonstrated that T. reesei ΔTrctf1 with the Trctf1 gene knocked out showed no statistically significant differences in cellulase, cellobiohydrolase, endoglucanase, and β−glucosidase production when induced with MGD (the mixture of glucose and sophorose). However, when induced with lactose, the activities of these enzymes increased by 20.2%, 12.4%, and 12.9%, respectively, with no statistically significant differences in β−glucosidase activity. The hydrolysis efficiency on corn stover of cellulases produced by T. reesei ΔTrctf1 under different inducers was not significantly different from that of wild-type cellulases, indicating that Trctf1 gene deletion has little effect on the cellulase cocktail. These findings contribute to a better understanding of the molecular mechanisms underlying the regulation of T. reesei cellulase synthesis by different soluble inducers, as well as the construction of high-yield cellulase gene−engineered strains.
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来源期刊
Fermentation-Basel
Fermentation-Basel BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
3.80
自引率
18.90%
发文量
594
审稿时长
7 weeks
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