Danuta Wilmańska scite author profile

Stable mutants showing improved 11-hydroxylation of Substance S were isolated, following treatment with N-methyl-N'-nitro-N-nitrosoguanidine (NTG) and regeneration of uninucleate protoplasts of the appropriate fungal strains. This procedure was especially suitable for obtaining more directed 11 beta-hydroxylation of Substance S with Curvularia lunata IM 2901. Apart from producing cortisol (11 beta-hydroxy-S), the parent strain formed several by-products that significantly lowered the yield of the desired 11 beta-hydroxyderivative. Isolated mutants of this microorganism carried out directed 11 beta-hydroxylation with only a small amount of one of the by-products, which resulted in a much higher yield of cortisol.

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Długoński

Wilmańska

1998

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Androgens (androstenedione and testosterone) belong to the most important compounds in human steroidogenesis. The 17 beta-hydroxysteroid dehydrogenase responsible for interconversion of the oxygenic group on C-17 of androgens ring is involved in steroid hormone synthesis. The fission yeast Schizosaccharomyces pombe 972 h- was found to contain constitutive 17 beta-hydroxysteroid dehydrogenase that was able to reduce androstenedione to testosterone and oxidize testosterone to androstenedione. The reductive pathway was found to be predominant while the oxidative one was carried out with much lower activity. Exogenous androstenedione, contrary to testosterone, inhibited S. pombe growth and stimulated the formation of aberrant swollen cells with slighter cell wall sensitivity to the action of the lytic enzyme Novozym. It is postulated that the 17 beta-hydroxysteroid dehydrogenase prevents the deleterious effects of androstenedione on the morphology and growth of the yeast's cells by androstedione reduction to testosterone.

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Transformation of steroids by fungal spores

Sedlaczek

Jaworski

Wilmańska

1981

European J. Appl. Microbiol. Biotechnol.

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Factors regulating the steroid 11-hydroxylation by non-germinating spores ofCunninghamella elegans (LENDNER)

Jaworski¹,

Sedlaczek²,

Wilmańska³

et al. 1982

Z Allg Mikrobiol

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In the presence of malate or citrate sporangiospores of C. elegans were able to hydroxylate cortexolone with a rate twofold exceeding that of the control, water suspended spores. Analysis of the intracellular nicotinamide coenzyme pools revealed an increased NADPH:(NADP+ + NADPH) ratio, indicating more effective NADPH-generating systems in malate- or citrate-stimulating spores. Swollen spores remaining in the pregermination state, retained higher cortexolone-hydroxylating activity in the absence of malate and citrate. In these spores degradation of endogenous alanine and glutamic acid was observed. Possible NADPH-generating systems in C. elegans sporangiospores were discussed.

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