Abstract
In this work γ-Fe2O3 MNPs were obtained by laser target evaporation and water based suspensions were prepared. Maximum permissive dose of iron in water (MPD) is 0.3 mg/L. It was found that 100 MPD dose of iron induces formation of non-typical colonies after 72 or 96 hours exposition: against a background of small black colonies large white colonies appeared due to a disruption in tyrosine synthesis. Multiple re-cloning of the white colonies grown with MNPs showed that they retained their properties both under standard conditions (temperature of 24 °C) and at the temperatures up to 37o C. E.nigrum grown with MNPs demonstrated very scant extension of small colonies at the cultivation temperature of 24o C, their growth was completely blocked at 37°C. Significant changes in the structure of the population were noted. First of all, large cells with pronounced aggregation were observed among the black colonies. These aggregates consisted of large cells connected to each other by matrix. In the white colonies the appearance of very long threadlike cells connecting different groups of the cells establishing an intercellular communication was evident. Fe2O3 MNPs induce an increase in the heterogeneity of the population, expressed as a change in morpho-physiological states.
Highlights
IntroductionThe universal property of any microbial population showing its adaptive capability is the heterogeneity
The universal property of any microbial population showing its adaptive capability is the heterogeneity. The study of this phenomenon is of interest for understanding the development of the microbial population in conditions of stress arising from the unfavourable environmental factors, as well as the mechanism of "quorum sensing", which provides a way of the microorganisms behaviour and survival in the microbial community [1]
The magnetic nanoparticles (MNPs) amount corresponding to 100 MPD of iron change biochemical properties of black yeasts leading to a disruption of the synthesis of melanin in the E. nigrum strain R-11 culture
Summary
The universal property of any microbial population showing its adaptive capability is the heterogeneity. The study of this phenomenon is of interest for understanding the development of the microbial population in conditions of stress arising from the unfavourable environmental factors, as well as the mechanism of "quorum sensing", which provides a way of the microorganisms behaviour and survival in the microbial community [1]. Heterogeneity provides microbial communities chance to survive in changing living conditions. Consideration that variation of small amount of iron is an instrument of the study of heterogeneity in the biological samples can provide useful insight on the features of the development of microbial population in artificially created stress conditions
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