Enhanced extracellular production of Coprinopsis cinerea laccase Lcc9 in Aspergillus niger by gene expression cassette and bioprocess optimization.

IF 3.5 3区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

BMC Biotechnology Pub Date : 2024-11-22 DOI:10.1186/s12896-024-00924-8

Dongbang Yao, Xiaozhuang Liu, Hui Wang, Juanjuan Liu, Zemin Fang, Yazhong Xiao

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引用次数: 0

Abstract

Background: The laccase Lcc9 from Coprinopsis cinerea has optimal catalytic activity at moderate to alkaline pH conditions, making it invaluable for industrial applications. However, C. cinerea naturally secretes Lcc9 at low expression levels, which limits the industrial application of Lcc9 on a large scale. Recombinant production of Lcc9 using Aspergillus niger would be an effective way to achieve its high production.

Results: This study achieved the secretory production of Lcc9 in A. niger and established an efficient transformation procedure for A. niger by optimizing its protoplast preparation system. The transformation efficiency of A. niger was increased 3.8-fold under the optimal system (cell wall digestion enzyme solution: 2% cellulase, 1% snailase, 1% lyticase, and 0.5% lysozyme; incubation time: 3 h; incubation temperature: 37 ℃; culture time: 48 h). The extracellular yield of Lcc9 was enhanced by optimizing gene expression cassette and bioprocess. First, the strain AnGgcL (containing P_gpdA) mediated by the SP_CAT, a signal peptide of the extracellular high abundance protein catalase, had an extracellular laccase activity of 10 U/L after shake flask fermentation. Then, by optimizing promoter and signal peptide combinations that regulate lcc9 expression, the strain AnGcgL mediated by P_citA-SP_GlaA had an extracellular laccase activity of 20 U/L. Subsequently, the strain AnRcgL1 (containing P_citA-SP_GlaA) obtained by random integration had an extracellular laccase activity of 86 U/L. Sequencing revealed that the lcc9 expression cassette was integrated into the citrate synthase gene locus in the AnRcgL1 genome in a 9-copy form. By optimizing the microparticle, osmolyte, and Cu²⁺ in the fermentation medium, the AnRcgL1 extracellular laccase activity was further increased to 1566.7 U/L, which was 156.7-fold higher than that of AnGgcL. Furthermore, its extracellular laccase activity was increased to 1961 U/L in a 1-L fermenter.

Conclusions: To our knowledge, this study is the first to report the recombinant extracellular production of the C. cinerea laccase Lcc9 in A. niger and to use SP_CAT in the A. niger expression system. The results of this study will help accelerate the industrial application of Lcc9. Moreover, the strategy used in this work provides methodological guidance for increasing other exogenous protein yields in A. niger.

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通过基因表达盒和生物工艺优化提高黑曲霉胞外生产拟铜锈漆酶 Lcc9 的能力。

背景：拟南芥中的漆酶 Lcc9 在中等至碱性 pH 条件下具有最佳催化活性，因此在工业应用中具有重要价值。然而，C. cinerea 自然分泌的 Lcc9 表达水平较低，这限制了 Lcc9 在工业上的大规模应用。利用黑曲霉重组生产 Lcc9 将是实现高产的有效途径：本研究在黑曲霉中实现了 Lcc9 的分泌生产，并通过优化黑曲霉原生质体制备系统，建立了黑曲霉的高效转化程序。在优化体系下（细胞壁消化酶溶液：2%纤维素酶、1%蜗牛酶、1%溶菌酶和 0.5%溶菌酶；培养时间：3 h；培养温度：20 ℃），黑曲霉的转化效率提高了 3.8 倍：3 小时；培养温度37 ℃；培养时间：48 h).通过优化基因表达盒和生物工艺，提高了Lcc9的胞外产量。首先，由胞外高丰度蛋白过氧化氢酶信号肽 SPCAT 介导的菌株 AnGgcL（含 PgpdA）在摇瓶发酵后的胞外漆酶活性为 10 U/L。然后，通过优化调控 lcc9 表达的启动子和信号肽组合，由 PcitA-SPGlaA 介导的菌株 AnGcgL 的胞外漆酶活性达到了 20 U/L。随后，通过随机整合获得的菌株AnRcgL1（含有PcitA-SPGlaA）的胞外漆酶活性为86 U/L。测序结果显示，lcc9 表达盒以 9 个拷贝的形式整合到了 AnRcgL1 基因组的柠檬酸合成酶基因位点上。通过优化发酵培养基中的微粒子、渗透剂和Cu2+，AnRcgL1的细胞外漆酶活性进一步提高到1566.7 U/L，是AnGgcL的156.7倍。此外，在 1 升发酵罐中，其细胞外漆酶活性提高到 1961 U/L ：据我们所知，本研究首次报道了在黑僵菌中重组胞外生产银环蛇漆酶 Lcc9，并在黑僵菌表达系统中使用 SPCAT。这项研究的结果将有助于加速 Lcc9 的工业应用。此外，这项工作中使用的策略还为提高黑菌中其他外源蛋白质的产量提供了方法指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Biotechnology 工程技术-生物工程与应用微生物

CiteScore

6.60

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： BMC Biotechnology is an open access, peer-reviewed journal that considers articles on the manipulation of biological macromolecules or organisms for use in experimental procedures, cellular and tissue engineering or in the pharmaceutical, agricultural biotechnology and allied industries.