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Propionic acid is produced biologically as its coenzyme A ester, propionyl-CoA, from the metabolic breakdown of fatty acids containing odd numbers of carbon atoms, and also from the breakdown of some amino acids. Bacteria of the genus Propionibacterium produce propionic acid as the end-product of their anaerobic metabolism.
This is done independent of oxygen and is thus anaerobic. Like in standard fermentation pathways, propionate fermentation involves the bacterium taking up saccharides, such as glucose, and breaking them down through glycolysis to produce pyruvate. Pyruvate is then converted into propionic acid through multiple reduction steps in the Wood ...
This method is used to produce propionic acid from ethylene using nickel carbonyl as the catalyst: [2] The above reaction is also referred to as hydroxycarbonylation, in which case hydrocarboxylation refers to the same net converstion but using carbon dioxide in place of CO and H 2 in place of water: [8]
Propionyl-CoA is a coenzyme A derivative of propionic acid.It is composed of a 24 total carbon chain (without the coenzyme, it is a 3 carbon structure) and its production and metabolic fate depend on which organism it is present in. [1] Several different pathways can lead to its production, such as through the catabolism of specific amino acids or the oxidation of odd-chain fatty acids. [2]
P. raffinosivorans can ferment glucose, cellobiose, maltose, fructose, mannitol, mannose, ribose, sucrose, and arabinose to produce acid. [1] [6] [9] It produces propionic acid, carbon dioxide, and acetic acid as products of its fermentative metabolic pathway. [6]
Members of the genus Propionibacterium are widely used in the production of vitamin B 12, tetrapyrrole compounds, and propionic acid, as well as in the probiotics and cheese industries. [7] The strain Propionibacterium freudenreichii subsp. shermanii is used in cheesemaking to create CO 2 bubbles that become "eyes"—round holes in the cheese. [8]
The mixed acid fermentation pathway differs from other fermentation pathways, which produce fewer end products in fixed amounts. The end products of mixed acid fermentation can have many useful applications in biotechnology and industry. For instance, ethanol is widely used as a biofuel. [5]
One discernible feature of this bacterium is that it produces large quantities of propionic and acetic acids. It can ferment sugars and polyhydroxy alcohols, and lactate provided that there are bacteria nearby are producing it by their own fermentative activities (this is known as secondary fermentation).