P. L. Zaslavskaya scite author profile

P. L. Zaslavskaya

4Publications

34Citation Statements Received

9Citation Statements Given

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Affiliations

Gause Institute of New Antibiotics Russian Academy of Medical Sciences

Publications

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Acremonium chrysogenum differentiation and biosynthesis of cephalosporin

Bartoshevich

Zaslavskaya

Novak

et al. 1990

J. Basic Microbiol.

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On the basis of structure-functional analysis of the development of Acremonium chrysogenum, e.g. under conditions either stimulating antibiotic synthesis or not conductive to production, a scheme was proposed representing the various ways in which morphological differentiation occurs in the culture in dependence on the directions of its metabolism. Three types of culture differentiation were determined. Type 1 differentiation is characterized by the transition of the vegetative stage into the reproductive one with the formation of conidia. Type 2 differentiation is characterized by the formation of typical arthrospores also being the reproductive form. Type 3 differentiation is characterized by the multistage transformation of the mycelium organization into the yeast-like one which is metabolically more active and is a producer of antibiotics and enzymes. In addition to the defined regularities in the development and differentiation of Acremonium chrysogenum structural peculiarities were observed which could be helpful to the search for regulators or specific enzymes taking part in the culture development.

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Relationship between intracellular pH and antibiotic biosynthesis in Fusidium coccineum

Shipanova

Bartoshevich

Sibel'dina

et al. 1995

Appl Microbiol Biotechnol

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Relationship between intracellular pH and antibiotic biosynthesis in Fusidium coccineum

Shipanova

Bartoshevich

Sibel'dina

et al. 1995

Applied Microbiology and Biotechnology

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Coagulation autolysis in microorganisms and its relation to coagulase production

Zaslavskaya

Chekalina

Nys

et al. 1992

J. Basic Microbiol.

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The phenomenon of coagulation autolysis was observed in two model microorganisms, i.e., a bacterial culture and an imperfect fungus. It was characterized by impairment of the cell membranes, followed by condensation and dehydration of the cytoplasm and long-term preservation of the cells in the form of coagulated cytoplasm. In this respect, it was similar to coagulation necrosis of human tissues. The autolysis in the microorganisms was accompanied by increase of their coagulase activity, the substrate specificity of the enzyme rather broad. The coagulase activity of the microorganisms was detected during the culture period between the lag-phase and the exponential growth phase, i.e., the phase of their active growth. It served as a signal to induce biosynthesis of peptidohydrolase and cleavage of proteins. We believe that the phenomenon of coagulation autolysis in these microorganisms is rather typical and can be considered as an adaptative reaction, inducing a cascade of events from synthesis of coagulase to overproduction of peptidohydrolases with proteolytic activity.

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P. L. Zaslavskaya

Acremonium chrysogenum differentiation and biosynthesis of cephalosporin

Relationship between intracellular pH and antibiotic biosynthesis in Fusidium coccineum

Relationship between intracellular pH and antibiotic biosynthesis in Fusidium coccineum

Coagulation autolysis in microorganisms and its relation to coagulase production

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