KAIST researchers engineer a bacterial pressure able to producing lutein

A analysis group at KAIST has engineered a bacterial pressure able to producing lutein. The analysis staff utilized programs metabolic engineering methods, together with substrate channeling and electron channeling, to boost the manufacturing of lutein in an engineered Escherichia coli pressure. The methods might be additionally helpful for the environment friendly manufacturing of different industrially vital pure merchandise used within the meals, pharmaceutical, and beauty industries.

Lutein is classed as a xanthophyll chemical that’s plentiful in egg yolk, fruits, and greens. It protects the attention from oxidative harm from radiation and reduces the danger of eye ailments together with macular degeneration and cataracts. Commercialized merchandise that includes lutein are derived from the extracts of the marigold flower, which is understood to harbor plentiful quantities of lutein. Nonetheless, the downside of lutein manufacturing from nature is that it takes a very long time to develop and harvest marigold flowers. Moreover, it requires further bodily and chemical-based extractions with a low yield, which makes it economically unfeasible when it comes to productiveness. The excessive price and low yield of those bioprocesses has made it troublesome to readily meet the demand for lutein.

These challenges impressed the metabolic engineers at KAIST, together with researchers Dr. Seon Younger Park, Ph.D. Candidate Hyunmin Eun, and Distinguished Professor Sang Yup Lee from the Division of Chemical and Biomolecular Engineering. The staff’s research entitled “Metabolic engineering of Escherichia coli with electron channeling for the manufacturing of pure merchandise” was revealed in Nature Catalysis on August 5, 2022.

This analysis particulars the power to provide lutein from E. coli with a excessive yield utilizing an inexpensive carbon supply, glycerol, by way of programs metabolic engineering. The analysis group centered on fixing the bottlenecks of the biosynthetic pathway for lutein manufacturing constructed inside a person cell. First, utilizing programs metabolic engineering, which is an built-in expertise to engineer the metabolism of a microorganism, lutein was produced when the lutein biosynthesis pathway was launched, albeit in very small quantities.

To enhance the productiveness of lutein manufacturing, the bottleneck enzymes inside the metabolic pathway had been first recognized. It turned out that metabolic reactions that contain a promiscuous enzyme, an enzyme that’s concerned in two or extra metabolic reactions, and electron-requiring cytochrome P450 enzymes are the principle bottleneck steps of the pathway inhibiting lutein biosynthesis.

To beat these challenges, substrate channeling, a technique to artificially recruit enzymes in bodily proximity inside the cell with a view to improve the native concentrations of substrates that may be transformed into merchandise, was employed to channel extra metabolic flux in direction of the goal chemical whereas lowering the formation of undesirable byproducts.

Moreover, electron channeling, a technique much like substrate channeling however differing when it comes to growing the native concentrations of electrons required for oxidoreduction reactions mediated by P450 and its reductase companions, was utilized to additional streamline the metabolic flux in direction of lutein biosynthesis, which led to the best titer of lutein manufacturing achieved in a bacterial host ever reported. The identical electron channeling technique was efficiently utilized for the manufacturing of different pure merchandise together with nootkatone and apigenin in E. coli, showcasing the final applicability of the technique within the analysis subject.

It’s anticipated that this microbial cell factory-based manufacturing of lutein will be capable of substitute the present plant extraction-based course of.”

Dr. Seon Younger Park, first creator of the paper

She defined that one other vital level of the analysis is that built-in metabolic engineering methods developed from this research could be typically relevant for the environment friendly manufacturing of different pure merchandise helpful as prescription drugs or nutraceuticals.

“As sustaining good well being in an growing older society is turning into more and more vital, we count on that the expertise and methods developed right here will play pivotal roles in producing different useful pure merchandise of medical or dietary significance,” defined Distinguished Professor Sang Yup Lee.

Journal reference:

Park, S.Y., et al. (2022) Metabolic engineering of Escherichia coli with electron channelling for the manufacturing of pure merchandise. Nature Catalysis. doi.org/10.1038/s41929-022-00820-4.



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