Production of the Marine Carotenoid Astaxanthin by Metabolically Engineered Corynebacterium glutamicum

Production of the Marine Carotenoid Astaxanthin by Metabolically Engineered Corynebacterium glutamicum

Astaxanthin, a red C40 carotenoid, is one of the most abundant marine carotenoids. It is currently used as a food and feed additive in a hundred-ton scale and is furthermore an attractive component for pharmaceutical and cosmetic applications with antioxidant activities. Corynebacterium glutamicum,...

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Bibliographic Details
Published in:Marine drugs Vol. 14; no. 7; p. 124
Main Authors: Henke, Nadja A, Heider, Sabine A E, Peters-Wendisch, Petra, Wendisch, Volker F
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 30-06-2016
MDPI
Subjects:
astaxanthin production
beta Carotene - metabolism
carotenoids
Carotenoids - metabolism
Corynebacterium glutamicum
Corynebacterium glutamicum - metabolism
genome-reduced Corynebacterium glutamicum
Marine
metabolic engineering
Metabolic Engineering - methods
Mixed Function Oxygenases - metabolism
Oxygenases - metabolism
systematic approach
Xanthophylls - metabolism
metabolic engineering
astaxanthin production
carotenoids
systematic approach
genome-reduced Corynebacterium glutamicum
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Summary:Astaxanthin, a red C40 carotenoid, is one of the most abundant marine carotenoids. It is currently used as a food and feed additive in a hundred-ton scale and is furthermore an attractive component for pharmaceutical and cosmetic applications with antioxidant activities. Corynebacterium glutamicum, which naturally synthesizes the yellow C50 carotenoid decaprenoxanthin, is an industrially relevant microorganism used in the million-ton amino acid production. In this work, engineering of a genome-reduced C. glutamicum with optimized precursor supply for astaxanthin production is described. This involved expression of heterologous genes encoding for lycopene cyclase CrtY, β-carotene ketolase CrtW, and hydroxylase CrtZ. For balanced expression of crtW and crtZ their translation initiation rates were varied in a systematic approach using different ribosome binding sites, spacing, and translational start codons. Furthermore, β-carotene ketolases and hydroxylases from different marine bacteria were tested with regard to efficient astaxanthin production in C. glutamicum. In shaking flasks, the C. glutamicum strains developed here overproduced astaxanthin with volumetric productivities up to 0.4 mg·L(-1)·h(-1) which are competitive with current algae-based production. Since C. glutamicum can grow to high cell densities of up to 100 g cell dry weight (CDW)·L(-1), the recombinant strains developed here are a starting point for astaxanthin production by C. glutamicum.
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Current Address: GSK Vaccines S.r.l., Siena 53100, Italy.
ISSN:1660-3397
1660-3397
DOI:10.3390/md14070124