C4-dicarboxylate transport in Bacillus subtilis studied with 3-fluoro-L-erythro-malate as a substrate.

Bacillus subtilis cells grown in yeast extract medium accumulated 3-fluoro-l-erythro-[1,2-(14)C(2)]malate more than 30-fold from the surrounding medium. No metabolic products derived from 3-fluoro-l-erythro-malate could be detected in these cells. l-Malate competitively inhibited transport of 3-fluoro-l-erythro-malate. This malate analogue was itself a competitive inhibitor of l-malate uptake. Cells that had been grown in yeast extract supplemented with 5 mM l-malate showed a 10-fold increased affinity towards 3-fluoro-l-erythro-malate relative to cells grown in yeast extract medium with no added malate. Our results suggest that two transport systems for l-malate can be induced in B. subtilis. The first of these systems seems to effect uptake of C(4)-dicarboxylates (l-malate, succinate, and fumarate) in yeast extract medium. The second transport system (or possibly a modification of the first transport system) seems to be induced by addition of l-malate to this medium and is also functioning in malate minimal medium.