Using rhamnolipid as a promoter to improve the production of germacrene A by Yarrowia lipolytica

Significant progress has recently been made in the biosynthesis of germacrene A using microbial cell factories. Germacrene A is a crucial precursor for the synthesis of anti‐cancer active compounds. However, its hydrophobic characteristics lead to its aggregation in cell membranes and cause severe c...

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Bibliographic Details
Published in:Biofuels, bioproducts and biorefining bioproducts and biorefining, 2024-11, Vol.18 (6), p.2053-2063
Main Authors: Cui, Wenxing, Lin, Haohong, Peng, Yujia, Qian, Xiujuan, Dong, Weiliang, Jiang, Min
Format: Article
Language:English
Subjects:
Adenine
Adenosine triphosphate
Aggregation
Antidotes
ATP
Bioreactors
Biosynthesis
Cell membranes
Cell surface
cytotoxic tolerance
Cytotoxicity
Electron transport
Fermentation
fermentation process regulation
Germacrene
germacrene A
hydrophobic natural products
Hydrophobicity
Membrane permeability
Membranes
Microorganisms
NAD
Natural products
Nicotinamide
Nicotinamide adenine dinucleotide
Permeability
Plant layout
Reactive oxygen species
Rhamnolipids
Scavenging
Surface tension
Toxicity
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Summary:Significant progress has recently been made in the biosynthesis of germacrene A using microbial cell factories. Germacrene A is a crucial precursor for the synthesis of anti‐cancer active compounds. However, its hydrophobic characteristics lead to its aggregation in cell membranes and cause severe cytotoxicity. In the present study, we found that rhamnolipids (RLs), as toxicity antidotes, could promote the production of germacrene A. An optimal RLs concentration of 1.25 g L−1 resulted in an increase of over 30% in the germacrene A titer at both shake flask and bioreactor scales. Mechanistic analysis showed that the addition of RLs could dramatically reduce aqueous‐phase surface tension and cell surface hydrophobicity (CSH), and increase the cell membrane permeability. This, in turn, promoted an efficient transfer of germacrene A from cell membrane to extraction phases. The addition of RLs also increased the adenosine triphosphate (ATP) concentration and the nicotinamide adenine dinucleotide (NAD+/NADH) ratio, while reducing reactive oxygen species (ROS) levels. Correspondingly, gene transcripts for key enzymes associated with germacrene A biosynthesis, the respiratory chain, and ROS scavenging were upregulated significantly. This study provides an effective RLs‐regulated fermentation method for the biosynthesis of hydrophobic natural products.
ISSN:1932-104X
1932-1031
DOI:10.1002/bbb.2687