L Sedlaczek scite author profile

Different types of microbiological transformation of steroids are reviewed, with special attention given to bioconversions applied in the manufacturing of steroid hormones, i.e., 11 alpha- 11 beta-, 16 alpha-, 17 alpha-hydroxylations and 1-dehydrogenation. Availability and utilization of raw materials for industrial production of steroids of the estrane, androstane, and pregnane series are discussed. Among the current trends in steroid research of a practical nature, immobilization of enzymes and living cells and the spore process are emphasized as alternative techniques of steroid transformation of possible future importance. Efforts to recognize, in cell-free preparations, the components of steroid-transforming enzyme systems as well as the cellular mechanisms of control of their biosynthesis and activity are described in order to illustrate the main subjects of current basic investigation in steroid bioconversion.

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Polycations increase the permeability of Mycobacterium vaccae cell envelopes to hydrophobic compounds

Korycka-Machała

Ziółkowski

Rumijowska-Galewicz

et al. 2001

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Effect of inhibitors of cell envelope synthesis on β‐sitosterol side chain degradation by Mycobacterium sp. NRRL MB 3683

Sedlaczek

Górmiński

Lisowska

1994

J. Basic Microbiol.

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The role of the lipid bilayer and the peptidoglycan of the mycobacterial cell wall in the permeation of beta-sitosterol into the cell and its transformation to androst-1-ene-3,17-dione (AD) and androsta-1,4-diene-3,17-dione (ADD) was studied. Specific inhibitors were used at concentrations affecting the biosynthesis of the assumed target structures, but causing only partial cell growth inhibition or exerting no effect on growth. m-Fluorophenylalanine and DL-norleucine which are known to disorganize the biosynthesis of amphipatic components of the outer layer of the lipid bilayer, used at concentrations 250 micrograms/ml and 400 micrograms/ml, respectively, increased the formation rate of AD+ADD from 0.3 (control) to 0.7 and 0.8 mg products/g dry weight/h. The disorganization of the underlying mycolyl-arabinogalactan structure by the action of the ethambutol at the concentration 40 micrograms/ml, at which the cell growth was apparently not affected, caused the decrease of the product formation from 135 mg/l to 70 mg/l. In the presence of isoniazid (350 micrograms/ml) only trace amounts of AD accumulated during 48 hours of transformation indicating much lower activity than that of the intact cells. The most effective among the tested inhibitors of peptidoglycan synthesis were glycine (15 mg/ml) and vancomycin (150 micrograms/ml) which enhanced the transformation activity of the treated cells nearly three times. Increased transformation rate was also obtained by the action of colistin at concentrations ranging from 10 micrograms/ml to 15 micrograms/ml.

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Elimination of by-products in 11β-hydroxylation of Substance S using Curvularia lunata clones regenerated from NTG-treated protoplasts

Wilmańska

Milczarek

Rumijowska

et al. 1992

Appl Microbiol Biotechnol

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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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Transformation of sterols byMycobacterium vaccae: effect of lecithin on the permeability of cell envelopes to sterols

Rumijowska

Lisowska

Ziótkowski

et al. 1997

World J Microbiol Biotechnol

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L Sedlaczek

Biotransformations of Steroids

Polycations increase the permeability of Mycobacterium vaccae cell envelopes to hydrophobic compounds

Effect of inhibitors of cell envelope synthesis on β‐sitosterol side chain degradation by Mycobacterium sp. NRRL MB 3683

Elimination of by-products in 11β-hydroxylation of Substance S using Curvularia lunata clones regenerated from NTG-treated protoplasts

Transformation of sterols byMycobacterium vaccae: effect of lecithin on the permeability of cell envelopes to sterols

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