Natamycin has been widely applied in medical treatments and food protection widely due to its effective inhibition to the growth of yeast and mold. As polyene macrolide antibiotic, the biosynthesis pathway of natamycin is relatively clear. To regulate the biosynthesis of natamycin, additions of precursors affecting cell growth and natamycin production were investigated. The results showed that 0.003% (w/v) potassium ferrocyanide and sodium propionate: n-butanol at a ratio of 4:1 was added into the broth at 0 and 24 hr, respectively, and they contributed to yield natamycin, reaching 1.62 g L-1 (174.6% higher than control). Furthermore, response surface methodology was undertaken to enhance natamycin production by Streptomyces natalensis HDMNTE-01 (a wild strain). The optimum conditions determined were: glucose 3.97%; soya peptone 2%; yeast extract 0.5%; original pH 7.0; inoculum volume 6%; growth in a 250-mL flask containing 24.68 mL of medium; shaken (220 rpm) at 28°C for 4 days. Under the optimized conditions, the yield was 2.81 g L-1 natamycin in 5-L fermentor when the fermentation was processed.
Keywords: Biosynthesis regulation; Streptomyces natalensis; natamycin; response surface methodology.