Abstract

Aim. To investigate the ability of our phytopathogenic fungal strain 502, earlier preliminarily identified as the phytopathogen Plectosphaerella melonis (syn. Acremonium cucurbitacearum), to have phytotoxic and/or plant growth regulatory activity. Methods. The phytotoxicity of strain 502, was studied by bioassays using the test cultures of corn (Zea mays L.), garden cress (Lepidium sativum L.), cucumber (Cucumis sativus L.), and onion (Allium cepa L.). The cytotoxicity and genotoxicity of the fungus were estimated using the Allium cepa-test. The mitotic index of the, the duration of mitosis phases, and the frequency of aberrant ana-telophases of Allium cepa L. roots meristem was also investigated. For this purpose, strain 502, was grown in the following culture media: synthetic Raulin-Thom medium for 10 days at 26 ± 2 °С. Cell-free filtrate (culture fluid) was used for the study. Ethylene production was quantified in culture filtrate using gas-chromatography meth- od. Ethylene measurement was performed every 7 days during 8 weeks. The determination was carried out using a gas chromatograph «Agilent Technologies 6850» (USA) fitted with a flame ionization detector, using commercial ethylene as a standard for identification and quantification Every experiment had three repeats. The reliability of experimental data was assessed by statistical methods using Statistica 12 (Stat-Soft Inc., USA). Results. Undiluted culture fluid (obtained by growing the fungus on liquid wort) of our strain 502 inhibited the growth of Z. mays seedlings by 14 %, L. sativum seedlings by 18 % (1 : 100 dilution) and stimulated the growth of L. sativum roots by 54 and 41 % (1 : 10 and 1 : 100 dilutions, respectively). The culture fluid, obtained by growing the fungus on Raulin-Thom’s synthetic agar, demonstrated a slight inhibitory effect on the seedlings and roots of L. sativum, and at the dilution of 1 : 1000 stimulated growth by 30 %. Insignificant changes in the mitotic index of the meristem of A. cepa roots were revealed at the effect of the culture fluid of P. melonis, strain 502, diluted at the ratio of 1 : 100 and 1 : 1000. At the same time, the number of cells at the prophase stage decreased 1.7 times (1 : 100 dilution). There is a significant increase in the number of cells at the metaphase stage – 1.3 and 1.4 times (dilution 1 : 100 and 1 : 1000, respectively), the anaphase stage – 2.1 and 1.8 times (dilution 1 : 100 and 1 : 1000, respectively) and the telophase stage – 1.8 times (1 : 100 dilution), as compared with the positive control (culture medium). The frequencies of aberrant ana-telophases in the apical meristems of the initial roots were 5.0 and 2.2 % (at the culture fluid dilution of 1 : 100 and 1 : 1000, respectively). We researched the abil- ity of P. melonis 502 to synthesize ethylene and the highest level of it was registered after 5 weeks of cultivation (111.78 nmol/h g). Conclusions: It was demonstrated by us that the culture fluid of strain 502 showed no phytotoxic effect on roots and seedlings of the investigated cultures, demonstrating the exclusion of phytotoxins from the possible range of effectors. No cytotoxic or genotoxic activity of the culture fluid was observed either. However, the culture fluid altered the dynamics of the cell cycle, in particular, shortened the prophase and stimulated the metaphase, anaphase, and telophase. The culture fluid of the fungus stimulated the growth of L. sativum roots depending on the nutrient medium, where the fungus was grown and cultivated. In particular, when growing the fungus on the liquid wort, the growth was higher by 54 and 41 % (dilution 1 : 10 and 1 : 100, respectively), when growing on synthetic Raulin-Thom’s medium – by 30 %. This demonstrates the ability of strain 502 to possibly synthesize growth promoting substances. Also, we have shown the ability of this strain to synthetize ethylene in vitro (111.78 ± 13.27 nmol/h per g), which can act as virulence factor. We consider the obtained results to be the first stage of the study on the mechanism of the interaction between pathogenic strain 502 and plants.

Highlights

  • Pathogen metabolites play a prominent role in the initiation and development of the pathological process and serve as pathogenicity effectors (Rovenich H et al, 2014; Vleeshouwers VG, Oliver RP, 2014; Bulygina TV et al, 2015; Snelders NC et al, 2020; Roth MG et al, 2021)

  • There was an insignificant inhibition of corn roots when undiluted culture fluid (CF) of the fungus was used (14 %)

  • Since the impact of secondary metabolites of the fungus on test plants could have been masked by the inhibitory effect of the wort, we studied the impact of the culture fluid of the fungus, grown on the Raulin-Thom’s medium

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Summary

Introduction

Pathogen metabolites play a prominent role in the initiation and development of the pathological process and serve as pathogenicity effectors (Rovenich H et al, 2014; Vleeshouwers VG, Oliver RP, 2014; Bulygina TV et al, 2015; Snelders NC et al, 2020; Roth MG et al, 2021). On the initial stages of the attack, the pathogens send chemical signals to host plants and enter the so called “molecular dialogue”, aimed at penetrating a plant organism, inhibiting defense reactions, and using the content of plant cells as a nutrition source (Ökmen B, Doehlemann G, 2014). Phytopathogens employ different strategies: necrotrophs kill their hosts with toxins and consume dead plant remains, while biotrophs colonize living tissues and manipulate the metabolism of plants (Doehlemann G et al, 2017). Phytotoxins play an important role in the pathogenesis of plants, as they may determine the development of the disease (Zdorovenko EL et al, 2020; Portal González et al, 2021). The synthesis of phytotoxins is a characteristic feature of necrotrophic pathogens, which defines a wide spectrum of host plants (Medina R et al, 2019). The pathogens of endophytic nature, hemibiotrophs and biotrophs, are either incapable of synthesizing phytotoxic substances or synthesize them only in later stages of the pathogenesis (Mishra R et al, 2018)

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