Increased Cordycepin Production in <i>Yarrowia lipolytica</i> Using Combinatorial Metabolic Engineering Strategies

Song, Zeqi; Lin, Wenbo; Duan, Xiyu; Song, Li-Ping; Wang, Chong; Yang, Hui; Lu, Xiangyang; Ji, Xiao‐Jun; Tian, Yun; Liu, Huhu

doi:10.1021/acssynbio.2c00570

Cited by 4 publications

(8 citation statements)

References 53 publications

(104 reference statements)

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“…Huo et al constructed a COR‐producing S. cerevisiae strain, which was fermented and optimized to reach 137.27 mg L −1 of COR 17 . Recently, a Y. lipolytica strain YlCor‐18 was constructed and COR content reached 4362.54 mg L −1 under fed‐batch fermentation 25 . In this work, S. cerevisiae was selected and engineered to produce the COR by introducing genes EA1 and EA2 , derived from E. atlantica , and combining strategies of metabolic pathway regulation and fermentation optimization and amplification to achieve 725.16 mg L −1 of COR yield, which was the highest yield of heterologous synthetic COR in S. cerevisiae reported so far.…”

Section: Discussionmentioning

confidence: 99%

“…Huo et al achieved heterologous production of COR by overexpressing CmCNS1 and CmCNS2 genes derived from C. militaris and the yield of COR reached 137.27 mg L −1 in a 5‐L fermenter by fermentation optimization in S. cerevisiae 17 . Song et al constructed an engineered strain YlCor‐18 by metabolic engineering, and the COR titer reached 4362.54 mg L −1 after 168 h fed‐batch fermentation in Yarrowia lipolytica 25 . As a traditional chassis strain, S. cerevisiae is considered an excellent host for the heterologous synthesis of natural products due to its powerful protein modification function, sophisticated genetic manipulation, rapid growth rate, and abundant cofactor content 26 .…”

Section: Introductionmentioning

confidence: 99%

“…17 Song et al constructed an engineered strain YlCor-18 by metabolic engineering, and the COR titer reached 4362.54 mg L À1 after 168 h fed-batch fermentation in Yarrowia lipolytica. 25 As a traditional chassis strain, S. cerevisiae is considered an excellent host for the heterologous synthesis of natural products due to its powerful protein modification function, sophisticated genetic manipulation, rapid growth rate, and abundant cofactor content. 26 These results indicate that the construction of COR yeast cell factory is very beneficial to the industrial production of COR.…”

mentioning

confidence: 99%

“…Constructing COR synthesis pathway in yeast to produce COR has become the mainstream research direction and the COR synthesis pathway in yeast has been predicted in research. 25 in a 5-L fermenter by fermentation optimization in S. cerevisiae. 17 Song et al constructed an engineered strain YlCor-18 by metabolic engineering, and the COR titer reached 4362.54 mg L À1 after 168 h fed-batch fermentation in Yarrowia lipolytica.…”

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confidence: 99%

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Overproduction of cordycepin in Saccharomyces cerevisiae by cordycepin synthase screening and metabolic engineering

Wang,

Fu,

Zuo

et al. 2024

AIChE Journal

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Cordycepin (COR) has attracted extensive attention for its medical value. Currently, separation and extraction from Cordyceps militaris is the main way to obtain COR, but it is time‐consuming and low efficiency. Heterologous synthesis of COR holds great promise for its industrial production. In this work, five COR synthases of different sources were obtained by homology screening, and were integrated into the genome of BY4741. Fermentation and determination of COR found that EA1 and EA2 from Emericellopsis atlantica were more suitable for COR synthesis. Then, ADO1 gene encoding adenosine kinase was knocked down, ADE4 gene encoding amidophosphoribosyltransferase and truncated cpdBN gene encoding 2′,3′‐cyclic‐nucleotide 2′‐phosphodiesterase/3′‐nucleotidase were overexpressed to enhance the accumulation of COR. Finally, the COR titer reached 725.16 mg L−1 in 5‐L bioreactor. This study lays a foundation for the heterologous synthesis and industrial production of COR, and also provides a reference for heterologous synthesis of other high value‐added chemicals.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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Overproduction of cordycepin in Saccharomyces cerevisiae by cordycepin synthase screening and metabolic engineering

Wang,

Fu,

Zuo

et al. 2024

AIChE Journal

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“…Regarding high-cordycepin-producing strain, Y. lipolytica , a constitutive promoter (translation elongation factor 1; Tef1p ) was used to control cordycepin biosynthesis genes. In addition, a combinatorial approach, including enzyme fusion engineering, supply modular engineering, and fed-batch fermentation, was implemented to enhance cordycepin production [ 21 , 50 ]. Enzyme fusion engineering has been proposed as an efficient strategy to improve the interaction between two enzymes and increase the production of various metabolites [ 51 , 52 ].…”

Section: Discussionmentioning

confidence: 99%

Efficient de novo production of bioactive cordycepin by Aspergillus oryzae using a food-grade expression platform

Jeennor,

Anantayanon,

Panchanawaporn

et al. 2023

Microb Cell Fact

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Background Cordycepin (3′-deoxyadenosine) is an important bioactive compound in medical and healthcare markets. The drawbacks of commercial cordycepin production using Cordyceps spp. include long cultivation periods and low cordycepin yields. To overcome these limitations and meet the increasing market demand, the efficient production of cordycepin by the GRAS-status Aspergillus oryzae strain using a synthetic biology approach was developed in this study. Results An engineered strain of A. oryzae capable of cordycepin production was successfully constructed by overexpressing two metabolic genes (cns1 and cns2) involved in cordycepin biosynthesis under the control of constitutive promoters. Investigation of the flexibility of carbon utilization for cordycepin production by the engineered A. oryzae strain revealed that it was able to utilize C6-, C5-, and C12-sugars as carbon sources, with glucose being the best carbon source for cordycepin production. High cordycepin productivity (564.64 ± 9.59 mg/L/d) was acquired by optimizing the submerged fermentation conditions. Conclusions This study demonstrates a powerful production platform for bioactive cordycepin production by A. oryzae using a synthetic biology approach. An efficient and cost-effective fermentation process for cordycepin production using an engineered strain was established, offering a powerful alternative source for further upscaling.

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Efficient production of cordycepin by engineered Yarrowia lipolytica from agro-industrial residues

Duan

Liu

Song

et al. 2023

Bioresource Technology

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Increased Cordycepin Production in Yarrowia lipolytica Using Combinatorial Metabolic Engineering Strategies

Cited by 4 publications

References 53 publications

Overproduction of cordycepin in Saccharomyces cerevisiae by cordycepin synthase screening and metabolic engineering

Overproduction of cordycepin in Saccharomyces cerevisiae by cordycepin synthase screening and metabolic engineering

Efficient de novo production of bioactive cordycepin by Aspergillus oryzae using a food-grade expression platform

Efficient production of cordycepin by engineered Yarrowia lipolytica from agro-industrial residues

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