Clinton W. Van't Land scite author profile

Stable isotope labeling experiments have shown that the biosynthesis of the monomeric phenazines, the saphenyl esters, and their dimerization products, the esmeraldins, in Streptomyces antibioticus Tu ¨2706 proceeds from phenazine-1,6-dicarboxylic acid by chain extension with C-2 of acetate to 6-acetylphenazine-1-carboxylic acid, which is reduced to saphenic acid. The latter is incorporated into both halves of the esmeraldins, albeit differentially. By feeding of chiral acetate, degradation of the resulting saphenyl esters and esmeraldins, and configurational analysis of the acetic acid formed, the chain extension process was found to proceed with overall inversion of configuration at the methyl group. This suggests that the decarboxylation of a hypothetical intermediate β-keto acid proceeds in an inversion mode. This result is discussed with reference to analogous C-methylations of polyketide backbones by addition of C-2 of acetate.

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ChemInform Abstract: Biosynthesis of the Phenazine Antibiotics, the Saphenamycins and Esmeraldins, in Streptomyces antibioticus.

Land¹,

Mocek²,

Floss³

1994

ChemInform

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Clinton W. Van't Land

Biosynthesis of the phenazine antibiotics, the saphenamycins and esmeraldins, in Streptomyces antibioticus

Biosynthesis of Phenazine Antibiotics inStreptomyces antibioticus: Stereochemistry of Methyl Transfer from Carbon-2 of Acetate

ChemInform Abstract: Biosynthesis of the Phenazine Antibiotics, the Saphenamycins and Esmeraldins, in Streptomyces antibioticus.

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