Translations:Vitamin B12/73/en: Difference between revisions

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Message definition (Vitamin B12)
==Synthesis==
===Biosynthesis===
{{Main|Cobalamin biosynthesis}}
Vitamin B<sub>12</sub> is derived from a [[tetrapyrrole|tetrapyrrolic structural framework]] created by the enzymes [[Porphobilinogen deaminase|deaminase]] and [[uroporphyrinogen III synthase|cosynthetase]] which transform [[aminolevulinic acid]] via [[porphobilinogen]] and [[hydroxymethylbilane]] to [[uroporphyrinogen III]]. The latter is the first [[macrocycle|macrocyclic]] intermediate common to [[heme]], [[chlorophyll]], [[siroheme]] and B<sub>12</sub> itself. Later steps, especially the incorporation of the additional methyl groups of its structure, were investigated using <sup>13</sup>C [[isotopic labelling|methyl-labelled]] [[S-adenosyl methionine]]. It was not until a [[genetic engineering|genetically engineered]] strain of ''[[Pseudomonas denitrificans]]'' was used, in which eight of the genes involved in the biosynthesis of the vitamin had been [[gene expression|overexpressed]], that the complete sequence of [[methylation]] and other steps could be determined, thus fully establishing all the intermediates in the pathway.

Synthesis

Biosynthesis

Main article: Cobalamin biosynthesis

Vitamin B12 is derived from a tetrapyrrolic structural framework created by the enzymes deaminase and cosynthetase which transform aminolevulinic acid via porphobilinogen and hydroxymethylbilane to uroporphyrinogen III. The latter is the first macrocyclic intermediate common to heme, chlorophyll, siroheme and B12 itself. Later steps, especially the incorporation of the additional methyl groups of its structure, were investigated using 13C methyl-labelled S-adenosyl methionine. It was not until a genetically engineered strain of Pseudomonas denitrificans was used, in which eight of the genes involved in the biosynthesis of the vitamin had been overexpressed, that the complete sequence of methylation and other steps could be determined, thus fully establishing all the intermediates in the pathway.

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