Application of multiple genomic-editing technologies in Streptomyces fungicidicus for improved enduracidin yield

IF 4.4 2区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Synthetic and Systems Biotechnology Pub Date : 2025-02-17 DOI:10.1016/j.synbio.2025.02.008

Yanan Sun, Guoguo Wu, Yining Wang, Jipeng Jiang, Haikuan Wang, Fufeng Liu, Fuping Lu, Huitu Zhang

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Abstract

Streptomyces fungicidicus, an industrial strain for enduracidin production, shows significant potential as a cellular chassis for the synthesis of novel small peptides. Targeted deletion of secondary metabolite gene clusters offers a promising strategy to enhance strain performance, but is often hampered by the lack of efficient gene editing tools. In this study, we optimized the traditional homologous recombination method by integrating selection and counter-selection markers to streamline the gene editing process, and successfully deleted gene clusters of up to 54.4 kb. Recognizing the significant potential of CRISPR/Cas-based systems in Streptomyces, we evaluated the base editing efficiency of the CRISPR/cBEST system in S. fungicidicus, which enabled stop codon insertions in the targeted gene with different mutation rates depending on the applied sgRNA. Additionally, we established a CRISPR/Cas9 system in S. fungicidicus while incorporating a counter-selection marker for efficient screening, which greatly shortened the gene editing cycle. The resulting mutants with single and cumulative gene cluster deletions exhibited improved growth characteristics, including a prolonged logarithmic phase and increased biomass. Although cumulative deletions did not result in consistent yield improvements, the mutants with improved growth characteristics show potential for further strain optimization in the future. The optimized gene editing systems developed in this study provide a valuable foundation for engineering other Streptomyces species.

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多种基因组编辑技术在真菌链霉菌中的应用，提高耐久酸素产量

链霉菌是一种生产耐多酸素的工业菌株，它作为合成新型小肽的细胞基质显示出巨大的潜力。靶向删除次生代谢物基因簇提供了一种很有前途的策略来提高菌株的性能，但往往受到缺乏有效基因编辑工具的阻碍。本研究通过整合选择和反选择标记，优化了传统的同源重组方法，简化了基因编辑过程，成功删除了高达54.4 kb的基因簇。认识到基于CRISPR/ cas的系统在链霉菌中的巨大潜力，我们评估了CRISPR/cBEST系统在S. fungicidicus中的碱基编辑效率，该系统可以根据应用的sgRNA以不同的突变率在目标基因中插入停止密码子。此外，我们在S. fungicidicus中建立了CRISPR/Cas9系统，同时加入了反选择标记进行高效筛选，大大缩短了基因编辑周期。单个和累积基因簇缺失的突变体表现出改善的生长特性，包括延长的对数期和增加的生物量。虽然累积缺失没有导致产量的持续提高，但具有改善生长特性的突变体显示了未来进一步优化菌株的潜力。本研究开发的优化基因编辑系统为其他链霉菌的基因编辑提供了有价值的基础。

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来源期刊

Synthetic and Systems Biotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-

CiteScore

6.90

自引率

12.50%

发文量

审稿时长

67 days

期刊介绍： Synthetic and Systems Biotechnology aims to promote the communication of original research in synthetic and systems biology, with strong emphasis on applications towards biotechnology. This journal is a quarterly peer-reviewed journal led by Editor-in-Chief Lixin Zhang. The journal publishes high-quality research; focusing on integrative approaches to enable the understanding and design of biological systems, and research to develop the application of systems and synthetic biology to natural systems. This journal will publish Articles, Short notes, Methods, Mini Reviews, Commentary and Conference reviews.