Abstract: | A high productivity tank fermentation for gramicidin S synthetases has been developed to supply biocatalyst for a preparative-scale ATP-driven cell-free enzymatic synthesis employing the polypeptide antibiotic, gramicidin S, as a model product. A rich, complex medium supports rapid and dense growth of the enzyme-producing microorganism, Bacillus brevis ATCC 9999, accompanied by the appearance of excellentenzyme activities. Under conditions used, the two enzyme fractions of the gramicidin S synthesizing system, as well as the total enzymatic activity for synthesis of gramicidin S, all reach their maxima simultaneously at the point where growth enters the stationary phase. Successful batch enzyme fermentations have been performed at the bench (14 liter) and pilot (180 liter)scales. |