High-level de novo biosynthesis of glycosylated zeaxanthin and astaxanthin in Escherichia coli.
Xixian ChenXiaohui LimAurélie BouinThomas LautierCongqiang ZhangPublished in: Bioresources and bioprocessing (2021)
Because of wide applications in food, feed, pharmaceutical and cosmetic industries, the carotenoid market is growing rapidly. Most carotenoids are hydrophobic, which limits their bioavailability. Glycosylation is a natural route that substantially increases the water solubility, as well as the bioavailability, photostability and biological activities of carotenoids. Here, we report metabolic engineering efforts (e.g., promoter and RBS engineering, optimization of carbon sources and supplementation of bottleneck genes) to produce glycosylated carotenoids in Escherichia coli. By fine-tuning the carotenoid-biosynthetic genes (crtX, crtZ and crtY), our strain produced up to 47.2 mg/L (~ 11,670 ppm) of zeaxanthin glucosides, ~ 78% of the total carotenoids produced. In another construct with mevalonate, astaxanthin pathway and crtX genes, the strain produced a mixture of carotenoid glucosides including astaxanthin and adonixanthin glucosides with a total yield of 8.1 mg/L (1774 ppm). Our work demonstrated a proof-of-concept study for the microbial biosynthesis of glycosylated carotenoids.
Keyphrases
- escherichia coli
- genome wide
- bioinformatics analysis
- dna methylation
- genome wide identification
- gene expression
- microbial community
- air pollution
- genome wide analysis
- klebsiella pneumoniae
- drinking water
- health insurance
- staphylococcus aureus
- risk assessment
- cell wall
- pseudomonas aeruginosa
- quality improvement
- cystic fibrosis
- human health