- Jensen, Rasmus;
- Schulz, Frederik;
- Roux, Simon;
- Klingeman, Dawn;
- Mitchell, Wayne;
- Udwary, Daniel;
- Moraïs, Sarah;
- Reynoso, Vinicio;
- Winkler, James;
- Nagaraju, Shilpa;
- De Tissera, Sashini;
- Shapiro, Nicole;
- Ivanova, Natalia;
- Reddy, T;
- Mizrahi, Itzhak;
- Utturkar, Sagar;
- Bayer, Edward;
- Woyke, Tanja;
- Mouncey, Nigel;
- Jewett, Michael;
- Simpson, Séan;
- Köpke, Michael;
- Jones, David;
- Brown, Steven
The genus Clostridium is a large and diverse group within the Bacillota (formerly Firmicutes), whose members can encode useful complex traits such as solvent production, gas-fermentation, and lignocellulose breakdown. We describe 270 genome sequences of solventogenic clostridia from a comprehensive industrial strain collection assembled by Professor David Jones that includes 194 C. beijerinckii, 57 C. saccharobutylicum, 4 C. saccharoperbutylacetonicum, 5 C. butyricum, 7 C. acetobutylicum, and 3 C. tetanomorphum genomes. We report methods, analyses and characterization for phylogeny, key attributes, core biosynthetic genes, secondary metabolites, plasmids, prophage/CRISPR diversity, cellulosomes and quorum sensing for the 6 species. The expanded genomic data described here will facilitate engineering of solvent-producing clostridia as well as non-model microorganisms with innately desirable traits. Sequences could be applied in conventional platform biocatalysts such as yeast or Escherichia coli for enhanced chemical production. Recently, gene sequences from this collection were used to engineer Clostridium autoethanogenum, a gas-fermenting autotrophic acetogen, for continuous acetone or isopropanol production, as well as butanol, butanoic acid, hexanol and hexanoic acid production.