Effect of inoculation process on lycopene production by Blakeslea trispora in a stirred-tank reactor.

Lycopene biosynthesis by Blakeslea trispora was greatly enhanced in a stirred-tank reactor when a nonsynchronous inoculation process, in which the (+) mating type was inoculated after the (-) mating type has been grown for a certain period of time, was applied. The lycopene concentration with nonsynchronous inoculation in a 24-h inoculation interval was 33 % higher than that with synchronous inoculation. The optimum inoculation ratio was 1:2 (+/-) at the 36 and 48 h inoculum age of mating types (+) and (-), respectively. Fermentation time for the individual strains and mated conditions showed that the (+) mating type grows faster than the (-) mating type. Morphological observation showed that the mycelium ratio of B. trispora (-) in mating culture with nonsynchronous inoculation was higher than that with synchronous inoculation. The results indicated that nonsynchronous inoculation process increased the dominance of B. trispora (-) in joint cultivation and hence stimulated lycopene biosynthesis.

Enhanced lycopene content in Blakeslea trispora by effective mutation-screening method.

The zygomycete fungus Blakeslea trispora is usually used as a natural source of lycopene and ß-carotene. In this study, the B. trispora (-) strain, a major mating type for lycopene production, was treated with N(+) ion implantation and N-methyl-N'-nitro-N-nitrosoguanidine (NTG), and further isolated on the screening plates supplemented with lovastatin and crude extracts of trisporic acid (CTA). After several rounds of screening, four mutants with higher yield of lycopene and biomass were isolated. Among these mutants, I5 obtained with N(+) ion implantation showed a maximum lycopene yield (28.8 mg/g), which was 64 % higher than the parent strain (17.5 mg/g) in the production of lycopene. The results indicated that N(+) ion implantation is more suitable for B. trispora (-) than NTG treatment, and the addition of lovastatin promoted the generation of positive mutant and CTA amplified the color differences between colonies.