Abstract
The cyanobacterium Oscillatoria brevis (Kutz.) Gom., strain NIVA CYA 7, was used to investigate how geosmin production is related to the synthesis of chlorophyll a, phycobiliproteins and β-carotene under nitrogen (NH4+) and light limiting conditions. Chemostat samples were used to inoculate batch cultures that were treated with inhibitors of isoprenoid synthesis, norflurazon and dimethazone, and gabaculine that inhibits tetrapyrrole synthesis. Dimethazone decreased and norflurazon increased geosmin production under light limited conditions, as was expected due to their sites of action in the isoprenoid pathway. This effect was not so pronounced in nitrogen limited cultures due to the additional effect of increasing nitrogen deficiency during the experimental period. Norflurazon was the only inhibitor that uncoupled geosmin production completely from β-carotene formation which indicates a strikt coupling between geosmin and β-carotene biosynthesis. From the observed increase of geosmin production relative to pigment synthesis after norflurazon treatment it was suggested that isoprenoid precursors are directed to geosmin synthesis when the demand for pigment precursors is very low. Within the framework of this study the data strongly support the hypothesis of geosmin formation via the isoprenoid pathway in Oscillatoria brevis as was found for actinomycetes.
Published Version
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