AI Article Synopsis
- Fatty acids are important raw materials for cosmetics, lubricants, and biofuels, and the study focuses on using an engineered microorganism for their production.
- The researchers optimized the fermentation process and successfully increased fatty acid production to 1.86 g/L in shake-flask conditions and 18.0 g/L in fed-batch fermentation.
- The approach demonstrated the microorganism's potential as an efficient platform for sustainable fatty acid manufacturing.
Article Abstract
Fatty acids (FA) are widely used as feed stocks for the production of cosmetics, personal hygiene products, lubricants and biofuels. is considered as an ideal chassis for bio-manufacturing, due to its outstanding characteristics such as methylotroph, thermal-tolerance and wide substrate spectrum. In this study, we harnessed for overproduction of fatty acids by engineering its fatty acid metabolism and optimizing the fermentation process. The engineered strain produced 1.86 g/L FAs under the optimized shake-flask conditions (37℃, pH 6.4, a C/N ratio of 120 and an of seed culture of 6-8). The fed-batch fermentation process was further optimized by using a dissolved oxygen (DO) control strategy. The C/N ratio of initial medium was 17.5, and the glucose medium with a C/N ratio of 120 was fed when the DO was higher than 30%. This operation resulted in a titer of 18.0 g/L FA, indicating the potential of using as an efficient cell factory for the production of FA.
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| http://dx.doi.org/10.13345/j.cjb.210102 | DOI Listing |
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