Production of nanaomycin and other antibiotics by phosphate-depressed fermentation using phosphate-trapping agents.
- 1 January 1986
- journal article
- research article
- Published by Japan Antibiotics Research Association in The Journal of Antibiotics
- Vol. 39 (11) , 1557-1564
- https://doi.org/10.7164/antibiotics.39.1557
Abstract
Nanaomycin production by Streptanyces rosa subsp. notoensis in complex media was inhibited by exogenously supplied inorganic phosphate. The inhibition was reversed by phosphate-trapping agents such as allophane and aluminum oxide. Under such condition nanaomycin production increased to the control level, and the phosphate content dropped down to the unsupplemented level. When allophane was added to conventional complex media containing nutrient-derived inorganic phosphate, the production of nanaomycin and several other antibiotics, which are subject to phosphate regulation, was enhanced several fold with the simultaneous reduction of free phosphate. The term "phosphate-depressed fermentation" is proposed for this technique.This publication has 6 references indexed in Scilit:
- Phosalacine, a new herbicidal antibiotic containing phosphinothricin. Fermentation, isolation, biological activity and mechanism of action.The Journal of Antibiotics, 1984
- Control of ammonium ion level for efficient nanaomycin production.The Journal of Antibiotics, 1984
- Biosynthesis of Nanaomycin: Syntheses of Nanaomycin E from Nanaomycin A and of Nanaomycin B from Nanaomycin E in a Cell-Free SystemThe Journal of Biochemistry, 1981
- Bioconversion and biosynthesis of nanaomycins using cerulenin, a specific inhibitor of fatty acid and polyketide biosyntheses.The Journal of Antibiotics, 1980
- Structure of nanaomycin E, a new nanaomycin.The Journal of Antibiotics, 1979
- The estimation of phosphorusBiochemical Journal, 1940