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Abstract
Different microbial pathways can elongate the carbon chains of molecules in open cultures of microbial populations (i.e. reactor microbiomes) under anaerobic conditions. Here, we discuss three such pathways: 1. homoacetogenesis to combine two carbon dioxide molecules into acetate; 2. succinate formation to elongate glycerol with one carbon from carbon dioxide; and 3. reverse ß oxidation to elongate short-chain carboxylates with two carbons into medium-chain carboxylates, leading to more energy-dense and insoluble products (e.g. easier to separate from solution). The ability to use reactor microbiomes to treat complex substrates can simultaneously address two pressing issues: 1. providing proper waste management; and 2. producing renewable chemicals and fuels.
Original language | English |
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Pages (from-to) | 115-122 |
Journal | Current Opinion in Biotechnology |
Volume | 27 |
DOIs | |
Publication status | Published - 2014 |
Keywords
- upgrading dilute ethanol
- fatty-acids
- actinobacillus-succinogenes
- syngas fermentation
- mixed cultures
- succinic acid
- megasphaera-elsdenii
- acetate production
- carbon-dioxide
- acetic-acid
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Dive into the research topics of 'Chain elongation in anaerobic reactor microbiomes to recover resources from waste'. Together they form a unique fingerprint.Projects
- 1 Finished
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Novel Anaerobes: Novel anaerobes for a biobased economy
1/04/13 → 31/03/18
Project: EU research project