De novo production of resveratrol from glycerol by engineering different metabolic pathways in Yarrowia lipolytica

IF 3.7 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Qin He , Patrycja Szczepańska , Tigran Yuzbashev , Zbigniew Lazar , Rodrigo Ledesma-Amaro
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引用次数: 14

Abstract

Resveratrol is a polyphenol with multiple applications in pharma, cosmetics and food. The aim of this study was to construct Yarrowia lipolytica strains able to produce resveratrol. For this purpose, resveratrol-biosynthesis genes from bacteria and plants were expressed in this host. Since resveratrol can be produced either via tyrosine or phenylaniline, both pathways were tested, first with a single copy and then with two copies. The phenylalanine pathway resulted in slightly higher production in glucose media, although when the media was supplemented with amino acids, the best production was found in the strain with two copies of the tyrosine pathway, which reached 0.085 ​g/L. When glucose was replaced by glycerol, a preferred substrate for bioproduction, the best results, 0.104 ​g/L, were obtained in a strain combining the expression of the two synthesis pathways. Finally, the best producer strain was tested in bioreactor conditions where a production of 0.43 ​g/L was reached. This study suggests that Y. lipolytica is a promising host for resveratrol production from glycerol.

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脂解耶氏菌通过不同代谢途径从甘油重新生产白藜芦醇
白藜芦醇是一种多酚,在制药、化妆品和食品中有多种应用。本研究的目的是构建能够生产白藜芦醇的多脂耶氏菌菌株。为此,从细菌和植物中提取白藜芦醇生物合成基因在该宿主中表达。由于白藜芦醇既可以通过酪氨酸产生,也可以通过苯胺产生,所以两种途径都进行了测试,首先用一个副本,然后用两个副本。在葡萄糖培养基中,苯丙氨酸途径的产量略高,但在培养基中添加氨基酸时,具有两份酪氨酸途径的菌株产量最高,达到0.085 g/L。当葡萄糖被生物生产的首选底物甘油取代时,在结合两种合成途径表达的菌株中获得了0.104 g/L的最佳结果。最后在生物反应器条件下对最佳产菌进行了试验,产菌量达到0.43 g/L。这一研究表明,脂肪瘤是甘油生产白藜芦醇的一个有希望的宿主。
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来源期刊
Metabolic Engineering Communications
Metabolic Engineering Communications Medicine-Endocrinology, Diabetes and Metabolism
CiteScore
13.30
自引率
1.90%
发文量
22
审稿时长
18 weeks
期刊介绍: Metabolic Engineering Communications, a companion title to Metabolic Engineering (MBE), is devoted to publishing original research in the areas of metabolic engineering, synthetic biology, computational biology and systems biology for problems related to metabolism and the engineering of metabolism for the production of fuels, chemicals, and pharmaceuticals. The journal will carry articles on the design, construction, and analysis of biological systems ranging from pathway components to biological complexes and genomes (including genomic, analytical and bioinformatics methods) in suitable host cells to allow them to produce novel compounds of industrial and medical interest. Demonstrations of regulatory designs and synthetic circuits that alter the performance of biochemical pathways and cellular processes will also be presented. Metabolic Engineering Communications complements MBE by publishing articles that are either shorter than those published in the full journal, or which describe key elements of larger metabolic engineering efforts.
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