Unlocking the formate utilization of wild‐type <i>Yarrowia lipolytica</i> through adaptive laboratory evolution

Chen, Qian; Chen, Yunhong; Hou, Zeming; Ma, Yuyue; Huang, Jianfeng; Zhang, Zhidan; Chen, Yefu; Yang, Xue; Zhang, Yanfei; Zhao, Guoping

doi:10.1002/biot.202400290

Biotechnology Journal

2024

DOI: 10.1002/biot.202400290

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Unlocking the formate utilization of wild‐type Yarrowia lipolytica through adaptive laboratory evolution

Qian Chen,

Yunhong Chen,

Zeming Hou

et al.

Abstract: Synthetic biology is contributing to the advancement of the global net‐negative carbon economy, with emphasis on formate as a member of the one‐carbon substrate garnering substantial attention. In this study, we employed base editing tools to facilitate adaptive evolution, achieving a formate tolerance of Yarrowia lipolytica to 1 M within 2 months. This effort resulted in two mutant strains, designated as M25‐70 and M25‐14, both exhibiting significantly enhanced formate utilization capabilities. Transcriptomic… Show more

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Cited by 3 publications

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Engineering yeast for high-level production of β-farnesene from sole methanol

Li,

Gao,

et al. 2024

Metabolic Engineering

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Engineering yeast for high-level production of β-farnesene from sole methanol

Li,

Gao,

et al. 2024

Metabolic Engineering

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Advancing Succinic Acid Biomanufacturing Using the Nonconventional Yeast Yarrowia lipolytica

Sun,

Lin

et al. 2024

J. Agric. Food Chem.

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Succinic acid is an essential bulk chemical with wide-ranging applications in materials, food, and pharmaceuticals. With the advancement of biotechnology, there has been a surge in focus on low-carbon sustainable microbial synthesis methods for producing biobased succinic acid. Due to its high intrinsic acid tolerance, Yarrowia lipolytica has gained recognition as a competitive chassis for the industrial manufacture of succinic acid. This review summarizes the research progress on succinic acid biomanufacturing using Y. lipolytica. First, it introduces the major metabolic routes for succinic acid biosynthesis and the pertinent engineering approaches for building efficient cell factories. Subsequently, we offer a review of methods employed for succinic acid synthesis by Y. lipolytica utilizing alternative substrates as well as the relevant optimization strategies for the fermentation process. Finally, future research directions for improving succinic acid biomanufacturing in Y. lipolytica are delineated in light of the recent progress, obstacles, and trends in this area.

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Formaldehyde: An Essential Intermediate for C1 Metabolism and Bioconversion

Jia,

Liu,

et al. 2024

ACS Synth. Biol.

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Formaldehyde is an intermediate metabolite of methylotrophic microorganisms that can be obtained from formate and methanol through oxidation−reduction reactions. Formaldehyde is also a one-carbon (C1) compound with high uniquely reactive activity and versatility, which is more amenable to further biocatalysis. Biosynthesis of high-value-added chemicals using formaldehyde as an intermediate is theoretically feasible and promising. This review focuses on the design of the biosynthesis of high-value-added chemicals using formaldehyde as an essential intermediate. The upstream biosynthesis and downstream bioconversion pathways of formaldehyde as an intermediate metabolite are described in detail, aiming to highlight the important role of formaldehyde in the transition from inorganic to organic carbon and carbon chain elongation. In addition, challenges and future directions of formaldehyde as an intermediate for the chemicals are discussed, with the expectation of providing ideas for the utilization of C1.

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Unlocking the formate utilization of wild‐type Yarrowia lipolytica through adaptive laboratory evolution

Cited by 3 publications

References 45 publications

Engineering yeast for high-level production of β-farnesene from sole methanol

Engineering yeast for high-level production of β-farnesene from sole methanol

Advancing Succinic Acid Biomanufacturing Using the Nonconventional Yeast Yarrowia lipolytica

Formaldehyde: An Essential Intermediate for C1 Metabolism and Bioconversion

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