The endogenous pool of phytoregulators in plant tissues supplied with microbial secondary metabolites may be crucial for the development of winter wheat seedlings during cool springs. The phytohormones may be synthesized by psychrotrophic microorganisms in lower temperatures occurring in a temperate climate. Two fungal isolates from the Spitzbergen soils after the microscopic observations and “the internal transcribed spacer” (ITS) region molecular characterization were identified as Mortierella
antarctica (MA DEM7) and Mortierella verticillata (MV DEM32). In order to study the synthesis of indoleacetic acid (IAA) and gibberellic acid (GA), Mortierella strains were grown on media supplemented with precursor of phytohormones tryptophan at 9, 15 °C, and 20 °C for nine days. The highest amount of IAA synthesis was identified in MV DEM32 nine-day-culture at 15 °C with 1.5 mM of tryptophan. At the same temperature (15 °C), the significant promoting effect (about 40% root and shoot fresh weight) of this strain on seedlings was observed. However, only MA DEM-7 had the ACC (1-aminocyclopropane-1-carboxylate) deaminase activity with the highest efficiency at 9 °C and synthesized IAA without tryptophan. Moreover, at the same conditions, the strain was confirmed to possess the strong promoting effect (about 40% root and 24% shoot fresh weight) on seedlings. Both strains synthesized GA in all tested terms and temperatures. The studied Mortierella strains had some important traits that led them to be considered as microbial biofertilizers components, improving plant growth in difficult temperate climates.
Release of cell wall degrading enzymes, CWDE, (glucanases, chitinases, xylanases, endocellulases, exocellulases, pectinases and polygalacturonases) was compared for three Fusarium culmorum isolates, two nonpathogenic rhizosphere isolates (a plant growth promoting [PGPF] and a deleterious [DRMO]) and one root pathogen, grown on media supplemented with one of these C sources: glucose, chitin, plant (rye root) and fungal (Fusarium) cell wall. The degree of autolysis determined after 42 d in the medium containing glucose was 15% for PGPF and DRMO and 20% for pathogenic isolate. The organic compounds added to the growth medium differentially affected the activity of the individual enzymes released by the particular isolates. The activities of xylanases and endocellulases released to the plant cell wall-amended medium by the PGPF isolate were significantly lower than the activities of these enzymes released by the DRMO and the pathogenic isolates. The activity of pectinases was repressed by glucose. The activities of acidic hydrolases were greater than those of alkaline hydrolases. Principal component analysis revealed that the activities of the CWDE found in the supernatants of the autolyzing F. culmorum cultures could be clustered into two distinct groups. One group included pectinase, exocellulase and polygalacturonase and all the remaining tested hydrolases in the other, suggesting that enzymes from either group might act in synergy during cell wall degradation. The differences in the activities of the individual CWDE released to the culture by the particular isolates are considered to be one of the key factors responsible for the observed types of plant-fungal interactions.
The total of 98 strains of moulds were isolated from soils collected in arctic tundra (Spitzbergen). Among these strains Penicillium cyclopium 1, the most effective for production of catalase, was selected by the method of test-tube microculture. The time course of growth and catalase production by this strain showed the intracellular activity of this enzyme to be about 3-fold higher than its extracellular level Some properties of crude catalase preparation, isolated from postculture liquids by lyophilization, were also examined. Catalase activity showed its maximum at 15 degrees C, indicating adaptation of the enzyme to lower temperatures of the arctic environment.
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