A genetic tool to express long fungal biosynthetic genes.

Q1 Agricultural and Biological Sciences
Leo Kirchgaessner, Jacob M Wurlitzer, Paula S Seibold, Malik Rakhmanov, Markus Gressler
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引用次数: 3

Abstract

Background: Secondary metabolites (SMs) from mushroom-forming fungi (Basidiomycota) and early diverging fungi (EDF) such as Mucoromycota are scarcely investigated. In many cases, production of SMs is induced by unknown stress factors or is accompanied by seasonable developmental changes on fungal morphology. Moreover, many of these fungi are considered as non-culturable under laboratory conditions which impedes investigation into SM. In the post-genomic era, numerous novel SM genes have been identified especially from EDF. As most of them encode multi-module enzymes, these genes are usually long which limits cloning and heterologous expression in traditional hosts.

Results: An expression system in Aspergillus niger is presented that is suitable for the production of SMs from both Basidiomycota and EDF. The akuB gene was deleted in the expression host A. niger ATNT∆pyrG, resulting in a deficient nonhomologous end-joining repair mechanism which in turn facilitates the targeted gene deletion via homologous recombination. The ∆akuB mutant tLK01 served as a platform to integrate overlapping DNA fragments of long SM genes into the fwnA locus required for the black pigmentation of conidia. This enables an easy discrimination of correct transformants by screening the transformation plates for fawn-colored colonies. Expression of the gene of interest (GOI) is induced dose-dependently by addition of doxycycline and is enhanced by the dual TetON/terrein synthase promoter system (ATNT) from Aspergillus terreus. We show that the 8 kb polyketide synthase gene lpaA from the basidiomycete Laetiporus sulphureus is correctly assembled from five overlapping DNA fragments and laetiporic acids are produced. In a second approach, we expressed the yet uncharacterized > 20 kb nonribosomal peptide synthetase gene calA from the EDF Mortierella alpina. Gene expression and subsequent LC-MS/MS analysis of mycelial extracts revealed the production of the antimycobacterial compound calpinactam. This is the first report on the heterologous production of a full-length SM multidomain enzyme from EDF.

Conclusions: The system allows the assembly, targeted integration and expression of genes of > 20 kb size in A. niger in one single step. The system is suitable for evolutionary distantly related SM genes from both Basidiomycota and EDF. This uncovers new SM resources including genetically intractable or non-culturable fungi.

Abstract Image

Abstract Image

Abstract Image

表达长真菌生物合成基因的遗传工具。
背景:从蘑菇形成真菌(担子菌)和早期分化真菌(EDF),如Mucoromycota次生代谢物(SMs)很少被研究。在许多情况下,SMs的产生是由未知的胁迫因素诱导的,或者伴随着真菌形态的季节性发育变化。此外,这些真菌中的许多被认为在实验室条件下不可培养,这阻碍了对SM的研究。在后基因组时代,许多新的SM基因被发现,尤其是来自EDF的。由于它们大多编码多模块酶,这些基因通常很长,这限制了它们在传统宿主中的克隆和异源表达。结果:在黑曲霉中建立了一个适合于从担子菌和EDF中生产SMs的表达体系。akuB基因在表达宿主a . niger ATNT∆pyrG中缺失,导致非同源末端连接修复机制缺失,进而促进同源重组靶基因缺失。∆akuB突变体tLK01作为平台,将长SM基因的重叠DNA片段整合到分生孢子黑色色素沉着所需的fwnA位点上。通过筛选黄褐色菌落的转化板,可以很容易地鉴别出正确的转化子。目的基因(GOI)的表达是由强力霉素诱导的剂量依赖性表达,并由土曲霉的双TetON/terrein合成酶启动子系统(ATNT)增强。我们发现,从担子菌Laetiporus sulureus的8 kb聚酮合成酶基因lpaA是由5个重叠的DNA片段正确组装而成的,并产生了Laetiporus硫酸。在第二种方法中,我们表达了来自EDF Mortierella alpina的尚未表征的> 20 kb的非核糖体肽合成酶基因calA。基因表达和随后对菌丝体提取物的LC-MS/MS分析显示了抗细菌化合物calpinactam的产生。这是首次报道从EDF中异源合成全长SM多结构域酶。结论:该系统可在黑曲霉中一步完成> 20kb基因的组装、靶向整合和表达。该系统适用于担子菌属和EDF的SM基因。这揭示了新的SM资源,包括遗传上难以处理或不可培养的真菌。
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
Fungal Biology and Biotechnology
Fungal Biology and Biotechnology Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
10.20
自引率
0.00%
发文量
17
审稿时长
9 weeks
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