| PW422662 | Cobalamin biosynthesis | Reaction compounds not found | | Cobalamin (vitamin B12) biosynthesis is a complex metabolic pathway found in certain bacteria and archaea, responsible for producing this essential cofactor used in critical enzymatic reactions, such as methyl group transfers and the rearrangement of carbon skeletons. The process involves over 30 enzymatic steps and can occur via two distinct routes: the aerobic and anaerobic pathways, depending on the availability of oxygen. Both pathways begin with the precursor uroporphyrinogen III, which undergoes a series of modifications to form the corrin ring characteristic of cobalamin. Key steps include methylation, ring contraction, cobalt insertion, and nucleotide loop assembly. The final product, adenosylcobalamin or methylcobalamin, is used as a cofactor in enzymes like methylmalonyl-CoA mutase and methionine synthase. Bacteria such as Propionibacterium freudenreichii and Pseudomonas denitrificans are prominent producers of cobalamin, and its synthesis is energetically expensive, making it an evolutionary advantage in specific niches. Cobalamin is vital for human health, but since humans cannot synthesize it, they depend on dietary sources or bacterial symbiosis, highlighting the ecological importance of this pathway. |
