A modular toolkit for environmental Rhodococcus, Gordonia, and Nocardia enables complex metabolic manipulation.

IF 3.9 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Applied and Environmental Microbiology Pub Date : 2024-08-21 Epub Date: 2024-07-31 DOI:10.1128/aem.00340-24
Zachary Jansen, Abdulaziz Alameri, Qiyao Wei, Devon L Kulhanek, Andrew R Gilmour, Sean Halper, Nathan D Schwalm, Ross Thyer
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Abstract

Soil-dwelling Actinomycetes are a diverse and ubiquitous component of the global microbiome but largely lack genetic tools comparable to those available in model species such as Escherichia coli or Pseudomonas putida, posing a fundamental barrier to their characterization and utilization as hosts for biotechnology. To address this, we have developed a modular plasmid assembly framework, along with a series of genetic control elements for the previously genetically intractable Gram-positive environmental isolate Rhodococcus ruber C208, and demonstrate conserved functionality in 11 additional environmental isolates of Rhodococcus, Nocardia, and Gordonia. This toolkit encompasses five Mycobacteriale origins of replication, five broad-host-range antibiotic resistance markers, transcriptional and translational control elements, fluorescent reporters, a tetracycline-inducible system, and a counter-selectable marker. We use this toolkit to interrogate the carotenoid biosynthesis pathway in Rhodococcus erythropolis N9T-4, a weakly carotenogenic environmental isolate and engineer higher pathway flux toward the keto-carotenoid canthaxanthin. This work establishes several new genetic tools for environmental Mycobacteriales and provides a synthetic biology framework to support the design of complex genetic circuits in these species.IMPORTANCESoil-dwelling Actinomycetes, particularly the Mycobacteriales, include both diverse new hosts for sustainable biomanufacturing and emerging opportunistic pathogens. Rhodococcus, Gordonia, and Nocardia are three abundant genera with particularly flexible metabolisms and untapped potential for natural product discovery. Among these, Rhodococcus ruber C208 was shown to degrade polyethylene; Gordonia paraffinivorans can assimilate carbon from solid hydrocarbons; and Nocardia neocaledoniensis (and many other Nocardia spp.) possesses dual isoprenoid biosynthesis pathways. Many species accumulate high levels of carotenoid pigments, indicative of highly active isoprenoid biosynthesis pathways which may be harnessed for fermentation of terpenes and other commodity isoprenoids. Modular genetic toolkits have proven valuable for both fundamental and applied research in model organisms, but such tools are lacking for most Actinomycetes. Our suite of genetic tools and DNA assembly framework were developed for broad functionality and to facilitate rapid prototyping of genetic constructs in these organisms.

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环境中的红球菌、戈尔多尼亚菌和诺卡氏菌的模块化工具包实现了复杂的代谢操作。
生活在土壤中的放线菌是全球微生物组中无处不在的多样化组成部分,但它们在很大程度上缺乏与大肠杆菌或假单胞菌等模式物种相媲美的遗传工具,这从根本上阻碍了它们作为生物技术宿主的特征描述和利用。为了解决这个问题,我们开发了一个模块化质粒组装框架,以及一系列遗传控制元件,用于以前在遗传学上难以解决的革兰氏阳性环境分离菌 Rhodococcus ruber C208,并在另外 11 种环境分离菌 Rhodococcus、Nocardia 和 Gordonia 中证明了其保守的功能。该工具包包括五个分枝杆菌复制起源、五个广泛的抗生素抗性标记、转录和翻译控制元件、荧光报告、四环素诱导系统和一个反选择标记。我们利用这一工具包来研究类胡萝卜素生物合成途径(Rhodococcus erythropolis N9T-4,一种弱类胡萝卜素环境分离物),并设计出更高的途径通量,以获得酮类胡萝卜素 canthaxanthin。这项工作为环境分枝杆菌建立了几种新的遗传工具,并提供了一个合成生物学框架,以支持在这些物种中设计复杂的遗传回路。重要意义生活在土壤中的放线菌,尤其是分枝杆菌,既包括可持续生物制造的多种新宿主,也包括新出现的机会性病原体。Rhodococcus、Gordonia 和 Nocardia 是三个丰富的菌属,它们的新陈代谢特别灵活,在天然产品发现方面具有尚未开发的潜力。其中,Rhodococcus ruber C208 可降解聚乙烯;Gordonia paraffinivorans 可从固体碳氢化合物中吸收碳;Nocardia neocaledoniensis(以及许多其他 Nocardia 菌属)拥有双重异戊二烯生物合成途径。许多物种积累了大量类胡萝卜素色素,这表明它们具有高度活跃的类异戊二烯生物合成途径,可用于发酵萜烯和其他商品类异戊二烯。模块化遗传工具包已被证明对模式生物的基础研究和应用研究都很有价值,但大多数放线菌缺乏此类工具。我们开发的这套遗传工具和 DNA 组装框架具有广泛的功能性,便于在这些生物体内快速构建遗传原型。
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来源期刊
Applied and Environmental Microbiology
Applied and Environmental Microbiology 生物-生物工程与应用微生物
CiteScore
7.70
自引率
2.30%
发文量
730
审稿时长
1.9 months
期刊介绍: Applied and Environmental Microbiology (AEM) publishes papers that make significant contributions to (a) applied microbiology, including biotechnology, protein engineering, bioremediation, and food microbiology, (b) microbial ecology, including environmental, organismic, and genomic microbiology, and (c) interdisciplinary microbiology, including invertebrate microbiology, plant microbiology, aquatic microbiology, and geomicrobiology.
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