Metabolism of beta-methylaspartate by a pseudomonad.

A bacterium was isolated from soil which utilizes threo-beta-methyl-l-aspartate, certain other amino acids, and a variety of organic substances as single energy sources. It is, or closely resembles, Pseudomonas putida biotype B. The ability of this organism to rapidly decompose such amino acids is dependent on inducible enzyme systems. Dialyzed cell-free extracts of this bacterium metabolize beta-methylaspartate only when catalytic amounts of alpha-ketoglutarate, or pyruvate, and pyridoxal phosphate are also present. The main products formed from beta-methylaspartate under these conditions are alpha-aminobutyrate, carbon dioxide, and alpha-ketobutyrate. When l-aspartate is substituted for beta-methylaspartate in this system, it is converted mainly to alanine and carbon dioxide. beta-Methyloxalacetate is decarboxylated, and the resulting alpha-ketobutyrate is converted enzymatically in the presence of glutamate to alpha-aminobutyrate which accumulates. The added keto acids are converted, in part, to the corresponding amino acids probably by transamination. The data indicate that beta-methylaspartate is converted to alpha-aminobutyrate, and aspartate to alanine, by a circuitous transamination-beta-decarboxylation-transamination sequence rather than by a direct beta-decarboxylation.