Abstract
5-Amino[1,4-13C2]laevulinic acid and 5-amino[1-13C]laevulinic acid are synthesised and all three 16O atoms of the latter are exchanged for 18O. The 13C,18O-labelled material is then converted in vitro into precorrin-2 2 by the combined action of four genetically overproduced enzymes. The product is isolated in its aromatised form, sirohydrochlorin 10 and 13C-NMR shows that all 8 carboxyl groups of 10 retain both oxygen atoms throughout the biosynthesis. A cell-free enzyme preparation from Propionibacterium shermanii converts the 13C,18O-labelled sirohydrochlorin 10via2 into cobyrinic acid 4, a late precursor of vitamin B12. 13C-NMR proves that 6 carboxyl groups of cobyrinic acid (b–g, inclusive) retain both oxygen atoms whereas the a-carboxyl group undergoes specific loss of one labelled oxygen atom.
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Schedule a callMore From: Journal of the Chemical Society, Perkin Transactions 1
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