Jana Novotná

Growth rate, sugar consumption, chlortetracycline production and anhydrotetracycline oxygenase activity inStreptomyces aureofaciens

The relationship between the activity of ATC oxygenase, CTC production and growth rate was investigated in a low-producing strain ofStreptomyces aureofaciens, closely related to the wildtype strain, and in a higher-producing variant. Different growth rates were achieved by using glucose, fructose and sucrose as carbon sources. Activity of the enzyme and CTC yield in both strains were inversely proportional to the rate of sugar utilization but in the higherproducing variant sugar utilization was slower than in the low-producing strain. The expression of ATC oxygenase was less sensitive to “catabolite repression” in the higherproduc ing strain. BT, a stimulator of CTC production, markedly inhibited growth of the higher-producing variant in a medium with slowly utilized sugars (fructose and sucrose) but had little effect on growth of the lowproducing strain. It also increased the level of ATC oxygenase in both strains under all experimental conditions. It could be established that there was no obligatory relationship between the increase of antibiotic synthesis and the increase of enzyme activity.

Subcellular localization of enzymes in Streptomyces aureofaciens and its alteration by benzyl thiocyanate. II: Anhydrotetracycline oxygenase and glucose-6-phosphate dehydrogenase

The localization of anhydrotetracycline oxygenase and glucose-6-phosphate dehydrogenase (EC 1.1.1.49) was studied by determining the enzyme activities in subcellular fractions obtained by differential centrifugation of the mycelia ofStreptomyces aureofaciens after lysozyme treatment. Glucose-6-phosphate dehydrogenase was a typical cytoplasmic enzyme both in the low- and high-production strain. Anhydrotetracycline oxygenase was found in the membrane fraction of the low-production strain. In the high-production strain, it was detected in several fractions, the highest activity being found in cytoplasm. The presence of 10 μm benzyl thiocyanate in the culture medium significantly changed the distribution of the latter enzyme in both strains. The redistribution of the enzymes is discussed with respect to tetracycline over-production.The localization of anhydrotetracycline oxygenase and glucose-6-phosphate dehydrogenase (EC 1.1.1.49) was studied by determining the enzyme activities in subcellular fractions obtained by differential centrifugation of the mycelia of Streptomyces aureofaciens after lysozyme treatment. Glucose-6-phosphate dehydrogenase was a typical cytoplasmic enzyme both in the low- and high-production strain. Anhydrotetracycline oxygenase was found in the membrane fraction of the low-production strain. In the high-production strain, it was detected in several fractions, the highest activity being found in cytoplasm. The presence of 10 microM benzyl thiocyanate in the culture medium significantly changed the distribution of the latter enzyme in both strains. The redistribution of the enzymes is discussed with respect to tetracycline over-production.

Subcellular localization of enzymes in Streptomyces aureofaciens and its alteration by benzyl thiocyanate. I. Phosphatases and ATP-glucokinase.

Mycelia of a low- and a high production strain ofStreptomyces aureofaciens were converted into protoplasts and divided into five subcellular fractions in order to localize exopolyphosphatases (EC 3.6.1.11), triphosphatase (EC 3.6.1.25), inorganic diphosphatase (EC 3.6.1.1), apyrase (EC 3.6.1.5) and glucokinase (EC 2.7.1.2). The highest specific activity of enzymes hydrolyzing polyphosphates was found in cytoplasmic vesicles and membranes. Triphosphatase was detected in the periplasmic fraction. Periplasmic vesicles and cytoplasm exhibited a high activity of diphosphatase. Apyrase was found mainly in the fractions of membranes and cytoplasmic vesicles. Glucokinase was a cytoplasmic enzyme. The enzymes were released from membrane structures into cytoplasm or periplasmic space if benzyl thiocyanate (10 μm) was present in the growth medium.

Characteristics ofStreptomyces globisporus strain 0234A forming endospores in submerged cultures

Thermosensitive submerged endospores formed byStreptomyces globisporus 0234 and its natural variant A resembled those of thermoresistant actinomycetes not only in their morphology and ultrastructure, but also in the content of dipicolinic acid. The production of endospores containing this substance is unusual inStreptomyces while other features of the strain indicate relatedness to other streptomycetes. Chemotaxonomic analysis of variant A revealed the cell wall to be of chemotype I and fatty acid content typical ofStreptomyces. Most characteristics of surface cultures of variant A coincided with those of the original strain 0234 and its endosporeless variant B. Both the strain 0234 and its variants A and B produced identical antibiotics and pesticidal compounds.

A direct-injection reversed-phase liquid chromatographic micromethod for studying the kinetics of terminal reactions of tetracycline biosynthesis

A new micromethod for measuring enzyme-catalyzed reactions was developed. The method involves a number of consecutive direct injections of aliquots of the reaction mixture onto a microbore column and permits the determination of the time dependence of the decrease of substrate or increase of product concentrations. The reactions proceed in a microvial placed in the autosampler, and as the starting volume can be as low as 10 microliters, the requirement for the amount of enzyme is very low. The autosampler backed by the liquid chromatographic software allows automation of the analyses including data processing and easy quantitation of the enzymatic reaction(s). The method was applied to a system of two consecutive terminal reactions of tetracycline biosynthesis in Streptomyces aureofaciens, catalyzed by anhydrotetracycline oxygenase and tetracycline dehydrogenase. The usage of a diode-array detector facilitated the quantification of the reactions as the product and substrate could be monitored at their optimal wavelengths.

High-Performance Liquid Chromatography of Derivatives Involved in the Terminal Steps of Tetracycline Biosynthesis in Streptomyces Aureofaciens

Abstract A simple and reproducible method was developed for the analysis of tetracycline derivatives involved in the last two steps of tetracycline biosynthetic pathway in Streptomyces aureofaciens. The method is based on a gradient liquid chromatographic separation of the compounds using a microbore octadecyl silica column. Beside separation of a mixture of standards, the method was used for separation, detection and quantitation of dehydrotetracycline and tetracycline prepared enzymatically in vitro using anhydrotetracycline oxygenase and tetracycline dehydrogenase, respectively, isolated from S. aureofaciens. The method permits a simple and accurate characterization of kinetics of corresponding enzymatic activities.

CHARACTERIZATION OF AN ASPOROGENOUS MUTANT OF STREPTOMYCES AUREOFACIENS WITH INCREASED RESISTANCE TO SEVERAL AMINOGLYCOSIDE ANTIBIOTICS

An asporogenous spontaneous mutant ofStreptomyces aureofaciens named ASR1 was selected on streptomycin gradient plates. The mutant is very stable and differs in ultrastructure and morphology, it is prototrophic but it lost the ability to grow well on soybean extract medium and produces one-tenth tetracyclines of the parent. The ASR1 mutant has a 3–4-fold increased resistance to streptomycin and is cross-resistant to other aminoglycosides. Comparison of the protein profiles from both strains on SDS gels revealed a very low expression of a 29.5 kDa protein in the ASR1 mutant which is overexpressed in both vegetative cells and spores of the parental strain.