Audrey Masi, Klara Wögerbauer, Robert L Mach, Astrid R Mach-Aigner
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引用次数: 0
摘要
背景:Aureobasidium pullulans 是一种多极端耐受性黑酵母菌。除其他胁迫外,它还能耐受低于 0 °C 的温度或高达 18% 的盐浓度。A. pullulans 基因组测序显示,它具有产生生物活性代谢物的巨大潜力。目前只有少数分子工具可以编辑 A. pullulans 的基因组,因此充分利用其潜力非常重要。目前已提出两种 CRISPR/Cas9 方法,用于基于原生质体转化 A. pullulans。这些方法需要将标记基因整合到要删除基因的位点上,而该基因的删除不会产生可选择的表型。我们介绍了在黑曲霉中开发的基于质粒的 CRISPR/Cas9 系统对拉氏曲霉的改造,以创建缺失菌株:结果:黑曲霉 CRISPR/Cas9 质粒在拉氏曲霉中实现了高效的基因组缺失。在这项研究中,通过使用基于 AMA1 质粒的基因组编辑策略,获得了缺失范围从 30 到 862 bp 的菌株:本研究提出的 CRISPR/Cas9 转化系统为 A. pullulans 的菌株工程提供了新的机遇。该系统允许表达 Cas9 和抗生素,同时易于改造。该策略可为 A. pullulans 的强化基因组工程开辟道路。
Genomic deletions in Aureobasidium pullulans by an AMA1 plasmid for gRNA and CRISPR/Cas9 expression.
Background: Aureobasidium pullulans is a generalist polyextremotolerant black yeast fungus. It tolerates temperatures below 0 °C or salt concentrations up to 18%, among other stresses. A. pullulans genome sequencing revealed a high potential for producing bioactive metabolites. Only few molecular tools exist to edit the genome of A. pullulans, hence it is important to make full use of its potential. Two CRISPR/Cas9 methods have been proposed for the protoplast-based transformation of A. pullulans. These methods require the integration of a marker gene into the locus of the gene to be deleted, when the deletion of this gene does not yield a selectable phenotype. We present the adaptation of a plasmid-based CRISPR/Cas9 system developed in Aspergillus niger for A. pullulans to create deletion strains.
Results: The A. niger CRISPR/Cas9 plasmid led to efficient genomic deletions in A. pullulans. In this study, strains with deletions ranging from 30 to 862 bp were obtained by using an AMA1 plasmid-based genome editing strategy.
Conclusion: The CRISPR/Cas9 transformation system presented in this study provides new opportunities for strain engineering of A. pullulans. This system allows expression of Cas9 and antibiotic resistance while being easy to adapt. This strategy could open the path to intensive genomic engineering in A. pullulans.
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