A heterogeneous microbial consortium producing short-chain fatty acids from lignocellulose

A heterogeneous microbial consortium producing short-chain fatty acids from lignocellulose

Microbial consortia are a promising alternative to monocultures of genetically modified microorganisms for complex biotransformations. We developed a versatile consortium-based strategy for the direct conversion of lignocellulose to short-chain fatty acids, which included the funneling of the lignoc...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2020-08, Vol.369 (6507)
Hauptverfasser: Shahab, Robert L, Brethauer, Simone, Davey, Matthew P, Smith, Alison G, Vignolini, Silvia, Luterbacher, Jeremy S, Studer, Michael H
Format: Artikel
Sprache:eng
Schlagworte:
Abiotic factors
Acetic acid
Aeration
Alcohols
Anaerobes
Bacteria
Biofilms
Bioprocessing
Bioreactors
Biosynthesis
Biotransformation
Butanol
Butyric acid
Carbohydrates
Cellulolytic enzymes
Cellulose
Clostridium
Clostridium tyrobutyricum - metabolism
Consortia
Division of labor
Elongation
Enzymes
Ethanol
Fatty acids
Fatty Acids, Volatile - biosynthesis
Fermentation
Food chains
Food contamination
Fungi
Genetically engineered microorganisms
Inoculation
Lactic Acid - metabolism
Lignin - metabolism
Lignocellulose
Lipids
Megasphaera elsdenii
Megasphaera elsdenii - metabolism
Membrane reactors
Membranes
Metabolism
Microbial Consortia
Microorganisms
Modularity
Oxygen
Redox potential
Sugar
Veillonella - metabolism
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Zusammenfassung:Microbial consortia are a promising alternative to monocultures of genetically modified microorganisms for complex biotransformations. We developed a versatile consortium-based strategy for the direct conversion of lignocellulose to short-chain fatty acids, which included the funneling of the lignocellulosic carbohydrates to lactate as a central intermediate in engineered food chains. A spatial niche enabled in situ cellulolytic enzyme production by an aerobic fungus next to facultative anaerobic lactic acid bacteria and the product-forming anaerobes. , , or were integrated into the lactate platform to produce 196 kilograms of butyric acid per metric ton of beechwood. The lactate platform demonstrates the benefits of mixed cultures, such as their modularity and their ability to convert complex substrates into valuable biochemicals.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.abb1214