Factors Affecting the Production of Candicidin

Abstract

Factors affecting candicidin synthesis and mycelial growth of Streptomyces griseus IMRU 3570 were studied. Inorganic phosphate was found to inhibit candicidin synthesis but to stimulate mycelial growth. Zinc, iron, and magnesium ions stimulated candicidin synthesis at relatively high concentrations in a complex medium but not in a synthetic medium. No other factors studied, such as temperature, oxygen absorption rate, and sugar concentration, were found to differentially affect antibiotic synthesis and mycelial growth. Optimum concentration of inorganic phosphate for candicidin synthesis in a chemically defined medium was found to be between 5 × 10 −5 and 5 × 10 −4 M. The culture in idiophase stage can be reverted to typical trophophase growth by the addition of inorganic phosphate, suggesting the controlling role of inorganic phosphate in repression and derepression of secondary metabolic and primary metabolic activity of the culture. With a soya peptone-glucose medium, the maximum rate of candicidin production could be maintained and extended for a considerable length of time by controlling the culture pH at 8.0, using glucose to adjust the pH during the later stages of a batch fermentation. Carrying out fermentations in this way has given candicidin yields up to 4 g/liter.