热带念珠菌新合成 β-酮的代谢工程。

IF 3.9 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

ACS Synthetic Biology Pub Date : 2024-08-16 Epub Date: 2024-08-01 DOI:10.1021/acssynbio.4c00286

Jie Xu, Yuanyuan Xia, Yibo Shi, Manzhi Zhu, Haibing Zhang, Xiaoying Gui, Wei Shen, Haiquan Yang, Xianzhong Chen

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引用次数: 0

摘要

β-ionone 是一种去甲异戊烯类化合物，是从植物中提取的天然芳香化合物，具有抗癌、抗氧化和驱虫等多种生物活性。由于其生物量大、环境耐受性强，我们选择了非常规含油酵母热带念珠菌（Candida tropicalis）来高效合成β-酮。我们首先研究了细胞质和亚细胞区独立合成 β-ionone 的能力。随后，通过酶的适应性筛选、亚细胞定位信号肽的功能鉴定以及亚细胞区室组合策略，β-ionone 的滴度达到了 152.4 mg/L。最后，通过限速酶的定向进化和关键酶的过表达，提高了 β-ionone 的产量。结果在摇瓶中的滴度为 400.5 毫克/升，在生物反应器中的滴度为 730 毫克/升。这项研究首次证明了热带褐藻从头合成 β-ionone 的能力，为具有巨大工业潜力的萜类香料提供了新的细胞底盘。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Metabolic Engineering of Candida tropicalis for the De Novo Synthesis of β-Ionone.

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Metabolic Engineering of Candida tropicalis for the De Novo Synthesis of β-Ionone.

β-ionone, a norisoprenoid, is a natural aromatic compound derived from plants, which displays various biological activities including anticancer, antioxidant and deworming properties. Due to its large biomass and strong environmental tolerance, the nonconventional oleaginous yeast Candida tropicalis was selected to efficiently synthesize β-ionone. We initially investigated the capacity of the cytoplasm and subcellular compartments to synthesize β-ionone independently. Subsequently, through adaptive screening of enzymes, functional identification of subcellular localization signal peptides and subcellular compartment combination strategies, a titer of 152.4 mg/L of β-ionone was achieved. Finally, directed evolution of rate-limiting enzyme and overexpression of key enzymes were performed to enhance β-ionone production. The resulting titer was 400.5 mg/L in shake flasks and 730 mg/L in a bioreactor. This study demonstrates the first de novo synthesis of β-ionone in C. tropicalis, providing a novel cellular chassis for terpenoid fragrances with considerable industrial potential.

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来源期刊

ACS Synthetic Biology 生物-

CiteScore

8.00

自引率

10.60%

发文量

380

审稿时长

6-12 weeks

期刊介绍： The journal is particularly interested in studies on the design and synthesis of new genetic circuits and gene products; computational methods in the design of systems; and integrative applied approaches to understanding disease and metabolism. Topics may include, but are not limited to: Design and optimization of genetic systems Genetic circuit design and their principles for their organization into programs Computational methods to aid the design of genetic systems Experimental methods to quantify genetic parts, circuits, and metabolic fluxes Genetic parts libraries: their creation, analysis, and ontological representation Protein engineering including computational design Metabolic engineering and cellular manufacturing, including biomass conversion Natural product access, engineering, and production Creative and innovative applications of cellular programming Medical applications, tissue engineering, and the programming of therapeutic cells Minimal cell design and construction Genomics and genome replacement strategies Viral engineering Automated and robotic assembly platforms for synthetic biology DNA synthesis methodologies Metagenomics and synthetic metagenomic analysis Bioinformatics applied to gene discovery, chemoinformatics, and pathway construction Gene optimization Methods for genome-scale measurements of transcription and metabolomics Systems biology and methods to integrate multiple data sources in vitro and cell-free synthetic biology and molecular programming Nucleic acid engineering.