Acetogenesis
Acetogenesis is a process through which acetyl-CoA or acetic acid is produced by anaerobic bacteria through the reduction of [Carbon dioxide|] via the Wood–Ljungdahl pathway. Other microbial processes that produce acetic acid are not considered acetogenesis. The diverse bacterial species capable of acetogenesis are collectively called acetogens.
Reduction of to acetic acid via the Wood–Ljungdahl pathway requires an electron source. When acetogens are grown autotrophically, they synthesize acetic acid only through the Wood–Ljungdahl pathway; but when they are grown heterotrophically, they can produce additional acetic acid by oxidation of the carbon source. Once produced, acetyl-CoA can be incorporated into biomass or converted to acetic acid.
Discovery
In 1932, organisms were discovered that could convert hydrogen gas and carbon dioxide into acetic acid. The first acetogenic bacterium species, Clostridium aceticum, was discovered in 1936 by Klaas Tammo Wieringa. A second species, Moorella thermoacetica, attracted wide interest because of its ability, reported in 1942, to convert glucose into three moles of acetic acid, a process called homoacetate fermentation.Biochemistry
The precursor to acetic acid is the thioester acetyl CoA. The key aspects of the acetogenic pathway are several reactions that include the reduction of carbon dioxide to carbon monoxide and the attachment of CO to a methyl group and coenzyme A. The first process is catalyzed by enzymes called carbon monoxide dehydrogenase. The coupling of the methyl group, the CO, and the coenzyme A is catalyzed by acetyl-CoA synthase.The global reduction reaction of into acetic acid by is the following:
The conversion of one mole of glucose into three moles of acetic acid is also a thermodynamically favorable reaction:
However, what matters for the cell is how much ATP is generated. This depends on the substrate.