Engineering a non-model yeast Rhodotorula mucilaginosa for terpenoids synthesis

IF 4.4 2区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Synthetic and Systems Biotechnology Pub Date : 2024-04-23 DOI:10.1016/j.synbio.2024.04.015
Qiongqiong Chen , Liting Lyu , Haizhao Xue , Aabid Manzoor Shah , Zongbao Kent Zhao
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Abstract

Terpenoids have tremendous biological activities and are widely employed in food, healthcare and pharmaceutical industries. Using synthetic biology to product terpenoids from microbial cell factories presents a promising alternative route compared to conventional methods such as chemical synthesis or phytoextraction. The red yeast Rhodotorula mucilaginosa has been widely studied due to its natural production capacity of carotenoid and lipids, indicating a strong endogenous isoprene pathway with readily available metabolic intermediates. This study constructed several engineered strains of R. mucilaginosa with the aim of producing different terpenoids. Monoterpene α-terpineol was produced by expressing the α-terpineol synthase from Vitis vinifera. The titer of α-terpineol was further enhanced to 0.39 mg/L by overexpressing the endogenous rate-limiting gene of the MVA pathway. Overexpression of α-farnesene synthase from Malus domestica, in combination with MVA pathway rate-limiting gene resulted in significant increase in α-farnesene production, reaching a titer of 822 mg/L. The carotenoid degradation product β-ionone was produced at a titer of 0.87 mg/L by expressing the β-ionone synthase from Petunia hybrida. This study demonstrates the potential of R. mucilaginosa as a platform host for the direct biosynthesis of various terpenoids and provides insights for further development of such platforms.

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改造非模式酵母 Rhodotorula mucilaginosa 以合成萜类化合物
萜类化合物具有巨大的生物活性,被广泛应用于食品、保健和制药行业。与化学合成或植物萃取等传统方法相比,利用合成生物学从微生物细胞工厂中提取萜类化合物是一种很有前景的替代方法。红酵母 Rhodotorula mucilaginosa 具有天然生产类胡萝卜素和脂质的能力,这表明它具有强大的内源性异戊二烯途径和易于获得的代谢中间体,因此被广泛研究。本研究构建了几株粘毛藻工程菌株,旨在生产不同的萜类化合物。通过表达葡萄中的α-松油醇合成酶,产生了单萜α-松油醇。通过过表达 MVA 途径的内源限速基因,α-松油醇的滴度进一步提高到 0.39 mg/L。结合 MVA 途径限速基因,过量表达来自 Malus domestica 的 α-法呢烯合成酶可显著提高 α-法呢烯的产量,滴度达到 822 毫克/升。通过表达来自杂色矮牵牛的 β-ionone 合成酶,类胡萝卜素降解产物 β-ionone 的生产滴度为 0.87 mg/L。这项研究证明了粘液藻作为直接生物合成各种萜类化合物的平台宿主的潜力,并为进一步开发此类平台提供了启示。
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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文献相关原料
公司名称产品信息其他信息采购帮参考价格
上海源叶 β-ionone
≥97.0%
¥25.00~¥12180.00
索莱宝 α-terpineol
≥99.0%
¥18.00~¥6539.65
上海源叶 ?2-ionone
≥97.0%
上海源叶 β-ionone
≥97.0%
来源期刊
Synthetic and Systems Biotechnology
Synthetic and Systems Biotechnology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
6.90
自引率
12.50%
发文量
90
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.
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