High-efficiency transformation and gene expression in Picosynechococcus sp. PCC 7002

Andrew P Hren, Joshua P Abraham, Melissa P. Tumen-Velasquez, Michael Melesse Vergara, Adam M Guss, William G Alexander, Brian F Pfleger, Jerome M Fox, Carrie A Eckert
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Abstract

Cyanobacteria are promising microbial platforms for a myriad of biotechnological applications, from sustainable biomaterials to photosynthetic chemical production, but still lack the breadth of genetic tools available for more commonly engineered microbes such as Escherichia coli. This study develops genetic tools to enhance the transformation efficiency and heterologous gene expression in Picosynechococcus sp. PCC 7002, a fast-growing, halotolerant, and naturally competent strain. Integration of fluorescent reporter cassettes across the genome revealed an integration site that yields a fourfold improvement in gene expression relative to previously reported sites. Protocol optimization and engineered DNA methylation in E. coli increased transformation efficiency by over tenfold. This work provides an experimental framework for efficient genome editing and metabolic engineering in the model cyanobacterium PCC 7002.
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Picosynechococcus sp. PCC 7002 的高效转化和基因表达
从可持续生物材料到光合作用化学品生产,蓝藻是很有前途的生物技术应用微生物平台,但与大肠杆菌等更常见的工程微生物相比,蓝藻仍然缺乏广泛的遗传工具。本研究开发了一些遗传工具,以提高生长迅速、耐卤且具有天然能力的大肠埃希球藻 PCC 7002 的转化效率和异源基因表达。荧光报告基因盒在整个基因组中的整合揭示了一个整合位点,与之前报道的位点相比,该位点的基因表达能力提高了四倍。在大肠杆菌中进行的方案优化和 DNA 甲基化工程将转化效率提高了 10 倍以上。这项工作为模式蓝藻 PCC 7002 的高效基因组编辑和代谢工程提供了一个实验框架。
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