Effects of glucose concentration on 1,18-cis-octadec-9-enedioic acid biotransformation efficiency and lipid body formation in Candida tropicalis

The unsaturated long-chain α,ω-dicarboxylic acid 1,18- cis -octadec-9-enedioic acid ( cis -ODA) is a versatile precursor of various valuable compounds, such as polymers, and can be obtained from renewable resources. This makes cis -ODA highly attractive for the chemical industry where there is a gro...

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Bibliographic Details
Published in:Scientific reports 2017-10, Vol.7 (1), p.13842-11, Article 13842
Main Authors: Funk, Irina, Sieber, Volker, Schmid, Jochen
Format: Article
Language:English
Subjects:
38/39
38/77
38/90
631/326/2522
631/61/252/953
Bioreactors
Biotechnology
Biotransformation
Biotransformation - drug effects
Candida tropicalis
Candida tropicalis - drug effects
Candida tropicalis - growth & development
Candida tropicalis - metabolism
Chemical industry
Dicarboxylic Acids - analysis
Dicarboxylic Acids - metabolism
Glucose
Glucose - pharmacology
Humanities and Social Sciences
Isomers
Lipid bodies
Lipid Droplets - drug effects
Lipid Droplets - physiology
Lipids
multidisciplinary
Oils & fats
Oleic acid
Polymers
Renewable resources
Science
Science (multidisciplinary)
Sustainable yield
Sweetening Agents - pharmacology
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Summary:The unsaturated long-chain α,ω-dicarboxylic acid 1,18- cis -octadec-9-enedioic acid ( cis -ODA) is a versatile precursor of various valuable compounds, such as polymers, and can be obtained from renewable resources. This makes cis -ODA highly attractive for the chemical industry where there is a growing interest in sustainable processes. However, chemical synthesis of the cis isomers is currently not feasible. In contrast, biotechnological production allows for highly specific and selective reactions. Therefore, we developed an efficient production strategy for cis -ODA using Candida tropicalis as a whole-cell biocatalyst for the biotransformation of oleic acid, which naturally occurs in various fats and oils. Applying a bench-top system comprising eight parallel bioreactors, the production process was characterised and optimised for high productivity. Glucose feed rate was identified as the most crucial process parameter influencing product yield, with high rates inducing oleic acid incorporation into triacylglycerols and storage in lipid bodies. Conversely, application of medium-chain length fatty acid as a substrate did not show any occurrence of lipid bodies. Applying the lowest possible molar ratio of glucose to oleic acid (1.5) resulted in marginal lipid body formation, but led to a peak volumetric productivity of 0.56 g/L/h and a final titre of approximately 45 g/L with a corresponding yield of 70%.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-14173-7