Enhanced heterologous gene expression in Trichoderma reesei by promoting multicopy integration

质粒 终端(太阳能) 表情盒 生物 基因 里氏木霉 基因组 遗传学 绿色荧光蛋白 异源的 发起人 分子生物学 基因表达 重组DNA 电离层 物理 纤维素酶 载体(分子生物学) 生物化学 纤维素 天文
作者
Hugues Mathis,Delphine Naquin,Antoine Margeot,Frédérique Bidard
出处
期刊:Applied Microbiology and Biotechnology [Springer Science+Business Media]
卷期号:108 (1)
标识
DOI:10.1007/s00253-024-13308-x
摘要

Trichoderma reesei displays a high capability to produce extracellular proteins and therefore is used as a platform for the expression of heterologous genes. In a previous study, an expression cassette with the constitutive tef1 promoter and the cbh1 terminator compatible with flow cytometry analysis was developed. Independent transformants obtained by a random integration into the genome of a circular plasmid containing the expression cassette showed a wide range of fluorescence levels. Whole genome sequencing was conducted on eight of the transformed strains using two next-generation sequencing (NGS) platforms: Illumina paired-end sequencing and Oxford Nanopore. In all strains, the expression plasmid was inserted at the same position in the genome, i.e., upstream of the tef1 gene, indicating an integration by homologous recombination. The different levels of fluorescence observed correspond to different copy numbers of the plasmid. Overall, the integration of a circular plasmid with the green fluorescence protein (egfp) transgene under the control of tef1 promoter favors multicopy integration and allows over-production of this heterologous protein on glucose. In conclusion, an expression system based on using the tef1 promotor could be one of the building blocks for improving high-value heterologous protein production by increasing the copy number of the encoding genes into the genome of the platform strain. KEY POINTS: • Varied eGFP levels from tef1 promoter and cbh1 terminator expression. • Whole genome sequencing on short and long reads platforms reveals various plasmid copy numbers in strains. • Plasmids integrate at the same genomic site by homologous recombination in all strains.

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