RU2737140C1 - Bacterial strain streptomyces resistomycificus recb-31b for producing a biopreparation for protecting agricultural plants from phytopathogenic fungi, stimulating their growth and increasing yield - Google Patents

Abstract

FIELD: biotechnology.SUBSTANCE: invention relates to agricultural biotechnology and microbiology. Invention is a strain of Streptomyces resistomycificus RECB-31B isolated from spring barren risosphere, deposited in National Bioresource Center All-Russian collection of industrial microorganisms (BRC VKPM) Research Center "Kurchatov Institute" – Genetika under registration number VKPM Ac-2122.EFFECT: strain has wide spectrum of action against phytopathogenic fungi, increases crop capacity and improves quality of crops; strain is nontoxic for animals, possesses growth-stimulating activity and can be used for creation of biopreparations for protection of plants against mycosis diseases on its basis.1 cl, 6 dwg, 6 tbl, 6 ex

Description

The invention relates to the field of agricultural microbiology and biotechnology, in particular, to the production of biological products to protect plants from phytopathogenic fungi and can be used to create biological products to increase the yield and quality of crops.

Biological preparations are actively used to protect crops from diseases [1]. Such drugs are based on certain strains of microorganisms that have the ability to suppress the growth and development of phytopathogenic fungi [2]. Among microorganisms, potential biological agents for the creation of biological products against plant diseases, the actinomycete bacteria, which are distinguished by their ability to produce various antibiotics and physiologically active substances, deserve special attention [3]. In this regard, the search for effective strains of actinomycetes as potential bioagents of biopesticides is one of the most promising areas in biological plant protection.

Known actinomycete strain Streptomyces spp., Which is a biological agent of the preparation Mycostop, used to control plant root rot [4]. Known strain Streptomyces felleus-8 VIZR [5] in the composition of the biological product Alirin C for plant protection against diseases. However, they have low efficiency and a narrower spectrum of action against other groups of plant mycoses.

Closest to the proposed invention is the actinomycete strain Streptomyces chrysomallus p-21 [6], which suppresses the growth of phytopathogenic fungi and has a stimulating effect on plants. However, this strain has insufficient biological effectiveness against a number of phytopathogenic fungi.

The objective of the invention is to identify an actinomycete strain suitable for obtaining a biological preparation with fungicidal activity, stimulating growth, increasing the yield and quality of agricultural crops for the development of new means of biological protection of plants from diseases.

The problem is solved by isolating the strain Streptomyces resistomycificus RECB-31B, suitable for obtaining a biological product against phytopathogenic fungi, increasing the yield and quality of agricultural crops. The new strain was isolated from the rhizosphere of barley growing in the Apastovsky region of the Republic of Tatarstan of the Russian Federation and deposited at the National Bioresource Center All-Russian collection of industrial microorganisms (BRC VKPM) NRC "Kurchatov Institute" - GosNIIgenetics under registration number VKPM As-2122.

The main selection criteria were the suppression of the growth of phytopathogenic fungi, a positive effect on plant productivity and quality, the absence of pathogenicity to warm-blooded animals and compatibility with other microorganisms. The identification of the strain was carried out according to the Gause's guide [7]. The species was determined using molecular genetic methods by the nucleotide sequence in 16S rRNA and by amplification of a species-specific fragment characteristic of Streptomyces resistomycificus at the National Bioresource Center All-Russian Collection of Industrial Microorganisms (BRC VKPM) NRC Kurchatov Institute - NRCIgenetics.

The strain is characterized by the following morphological, cultural and physiological and biochemical characteristics.

To determine morphological features, the culture was grown at t (25 ± 2) C, the color was determined according to the Bondartsev scale (Bondartsev A.S., Color scale. - M .: AN SSSR, 1954, 27 s).

Morphological features Chains of spores are straight, wavy, spores are smooth. On Czapek agar and Gause's medium with starch, aerial mycelium was white, substrate mycelium was beige-gray, and there was no RP. Does not form melanoid pigments. Genetic features have not been identified.

Streptomyces resistomycificus RECB-31B is an aerobic, chemoorgano-heterotrophic bacterium that does not require growth factors. It grows in the temperature range from 10 to 37 ° C with an optimal range of 28-32 ° C, at pH values from 4.5 to 8.5 with an optimum of 7.0-7.5, with sodium chloride concentration up to 5%.

It absorbs glucose, mannitol well; poorly assimilates arabinose, xylose; does not assimilate rhamnose, sucrose, raffinose, i-inositol, degrades cellulose and starch.

The strain is stored at 4-6 ° C in test tubes with semi-liquid agar in a mineral medium (composition: disubstituted potassium phosphate 5.8 g / l, monosubstituted potassium phosphate 3 g / l, ammonium sulfate 1 g / l, glycerin 2 g / l with the addition of 0 , 7% agar, pH 7.0-7.2) under vaseline oil, which is poured into test tubes after 2 days of culture growth. Under such conditions, the shelf life of the strain without reseeding is at least 1 year.

The strain grows well on MPA, KingB, LB medium, wort agar (composition: unhopped beer wort concentrate, diluted with distilled water to a total sugar concentration of 10% (10 ° Balling), pH 7.0-7.2 with the addition of 2.0 % agar-agar), Gromyko's medium, Gauze's medium No. 2 (composition: tryptone - 2.5 g; peptone - 5.0 g; NaCl - 5.0 g; glucose - 10.0 g; agar-agar - 20 g ; tap water - 1000 ml; pH - 7.0-7.4) and mineral medium (composition: disubstituted potassium phosphate 5.8 g / l, monosubstituted potassium phosphate 3 g / l, ammonium sulfate 1 g / l, glycerin 10 g / l with the addition of 0.7% agar, pH 7.0-7.2). Fermentation is carried out on a mixture of equal volumes of meat-peptone broth and 6 ° B unhopped beer wort (pH 6.9-7.2) at 30 ° C to 95% sporulation. The number of CFU is at least 5 × 10 ⁹ in 1 ml.

The study of the pathogenicity of the claimed strain for warm-blooded animals was carried out at the Kazan Federal University, as a result of which it was concluded that, in terms of virulence, dissemination, toxicity and toxicity, the Streptomyces resistomycificus RECB-31B strain is not pathogenic for warm-blooded animals and meets the requirements, applied to industrial microorganisms.

The essence of the described invention is disclosed in more detail in the examples below.

Example 1. Study of the antagonistic activity of the strain Streptomyces resistomycificus RECB-31B

To identify the antagonism of the studied strain to phytopathogenic microorganisms, a confrontational method was used. In the center of Petri dishes with KingB medium, a block with the mycelium of the tested fungus was laid out, the Streptomyces resistomycificus RECB-31B strain was injected at a distance of 2-3 cm, the Pseudomonas putida PCL1760 strain was used as a negative control, which was also inoculated with an injection, which does not emit any antagonistic substances that suppress the development of micromycetes (figure 1-6). Petri dishes were placed for 48-72 hours in thermostats at 25 ° C so that micromycetes and bacteria could develop. Observations were carried out on days 2-5, depending on the growth rate of the phytopathogen. This method for determining antagonistic activity is considered to be qualitative, where the presence or absence of antagonistic properties is determined by the area of zones of suppression of the growth of test objects.

The results of determining the antagonistic activity of the strain Streptomyces resistomycificus RECB-31B are shown in Figures 1-6. In which the following are indicated as options: 1) - a strain of Streptomyces resistomycificus RECB-31B, 2) Pseudomonas putida PCL1760. As a test culture of micromycetes used: Fig. 1 - Trichoderma asperellum RECB-74F, fig. 2 -Aspergillus niger, fig. 3 - Fusarium equisety, fig. 4 - Penicillum sp., Fig. 5 - Fusarium sporotrichoides, fig. 6 - Fusarium oxysporum ZUM2407.

According to the information provided, the strain Streptomyces resistomycificus RECB-31B is an antagonist and has a wide spectrum of activity; all micromycetes used in the study exhibited, to varying degrees, sensitivity to the antagonistic strain.

Example 2. Compatibility with beneficial microorganisms.

A study of the compatibility of the strain Streptomyces resistomycificus RECB-31B with beneficial bacteria Pseudomonas fluorescens RECB-14B, Bacillus mojavensis RECB-50B Pseudomonas fluorescens RECB-44B, Bacillus mojavensis RECB-50B, Trichoderma asperellum medium rich and 74 As a result of confrontation tests, it was shown that from the specified list of beneficial microorganisms, the Streptomyces resistomycificus RECB-31B strain inhibits the growth of the Trichoderma asperellum RECB-74B strain. This indicates the possibility of using this microorganism with other biological products based on bacilli and pseudomonads, which makes it possible to obtain combined biological products with various bioagents using the obtained strain of Streptomyces resistomycificus RECB-3IB.

Example 3. Laboratory evaluation of the effectiveness of seed treatment of Streptomyces resistomycificus RECB-31B in relation to phytopathogenic fungi The object of research is the seeds of spring wheat variety Yoldyz.

The seeds were treated with a biological product based on Streptomyces resistomycificus RECB-31B. The production of the biological product was carried out on a laboratory rocking chair Irmova 40R (Eppendorf) at a temperature of 37 ° С, the incubation time was 17 hours with a rotation of 180 rpm. Medium for preparing preparations - liquid nutrient medium LB, Luria broth. Titre not less than 2.5 * 109 CFU / l. The control was the variant without processing. The standard was the registered biological preparation Rizoplan based on Pseudomonas fluorescens strain AP-33, consumption rate - 0.5 l / t. Further, phytoexamination of the treated and control seeds was carried out using the roll method according to GOST 12044-93. “Seeds of agricultural crops. Methods for Determining Disease Infection ". For analysis by the method of rolls, 50 seeds were selected, for sowing on nutrient media - 25 seeds. The repetition is fourfold. Microscopic signs of pathogens were determined using a Micromed-2 microscope with a DCM 300 digital camera.

A decrease in seed contamination with pathogens was noted with the use of Streptomyces resistomycificus RECB-31B at a rate of 1.5 l / t. Streptomyces resistomycificus RECB-31B (0.5 L / t) was isolated against gel-mintosporium infection (Bipolaris spp.), But its activity was at the level of the standard biofungicide Rizoplan.

Example 4. Laboratory evaluation of the effect of seed treatment with Streptomyces resistomycificus RECB-31B on plant growth and development.

To assess the effect of seed treatment with the studied strain Streptomyces resistomycificus RECB-31B (at rates of 1.5 and 2.0 l / t), the object of research was the seeds of spring rape of the Ratnik variety. The biofungicide Rizoplan served as a control. After treatment with biological products, the seeds were placed in humid chambers (based on Petri dishes). After 7 days, the biometric parameters of the plants and the infection of seeds with Alternaria were determined (Table 2).

The evaluation results showed that the use of Streptomyces resistomycificus RECB-31B had a positive effect on laboratory germination, root length and sprout length of spring rape.

Example 5. Evaluation of the effectiveness of seed treatment of spring barley Streptomyces resistomycificus RECB-31B in the field

The object of research is the Raushan spring barley. The seeds were treated with a biological product based on Streptomyces resistomycificus RECB-31B with rates of 0.5 l / t, 1.0 l / t, 1.5 l / t. The control was the variant without processing. The standard was the registered biological preparation Rizoplan based on Pseudomonas fluorescens strain AP-33 with a consumption rate of 0.5 l / t. Working fluid consumption - 10 l / t.

Seed treatment had an impact on the development of diseases, in particular on root rot (Table 3).

The results of the evaluation showed that the use of Streptomyces resistomycificus RECB-31B at all application rates reduces the development of root rot in comparison with the control. In terms of indicators for the standard biofungicide Rizoplan, the most pronounced advantage was shown by variants with Streptomyces resistomycificus RECB-31B with a flow rate of 1.5 l / t and 0.5 l / t.

Yield data (Table 4) showed that the use of Streptomyces resistomycificus RECB-31B contributes to a significant increase in the productivity of spring barley. The use of this strain at rates of 1.0 and 1.5 l / t in terms of its effect on the yield of spring barley significantly exceeds the indicators for the standard biofungicide Rizoplan.

Example 6. Evaluation of the effectiveness of seed treatment of spring rape Streptomyces resistomycificus RECB-31B in the field

The object of research is the spring rape variety Gedemin. The seeds were treated with a biological product based on Streptomyces resistomycificus RECB-31B with rates of 1.0 l / t, 1.5 l / t, 2.0 l / t. The control was the variant without processing. The standard was the registered biological preparation Rizoplan based on Pseudomonas fluorescens strain AP-33 with a consumption rate of 1.0 l / t. Working fluid consumption - 20 l / t.

The investigated strain influenced the growth and development of spring rape plants (Table 5). The results of the assessment showed that Streptomyces resistomycificus RECB-31B in terms of influence on growth and development, as well as on biological productivity, in all studied consumption rates exceeds the indicators of both control and Rizoplan.

The use of Streptomyces resistomycificus RECB-31B had a similar effect on the actual yield, oil content and oil collection per hectare (Table 6).

Thus, the technical result of the claimed invention is to stimulate the growth of agricultural plants and protect them from phytopathogens, resulting in an increase in their yield. It is achieved by the fact that a strain of the bacterium Streptomyces resistomycificus RECB-31B is used as a means for treating plant seeds, which has a complex of useful properties, such as the ability to suppress the growth of phytopathogenic fungi and protect plants from infectious diseases, stimulate the growth of seedlings,

The invention was created with the financial support of the Ministry of Education and Science of the Russian Federation within the framework of the Federal Target Program "Research and Development in Priority Areas of Development of the Scientific and Technological Complex of Russia for 2014-2020" under agreement No. 14.610.21.0017 of October 03, 2017, unique project identifier RFMEFI61017X0017.

List of used literature

1. Minaeva OM, Akimova EE, Zyubanova TI, Tereshchenko NN, Biological products for plant protection: assessment of quality and efficiency: textbook. allowance - Tomsk: Tomsk State University Publishing House, 2018, -130 p.

Claims (1)

The bacterial strain Streptomyces resistomycificus RECB-31B, which has fungicidal activity against phytopathogenic fungi, has a growth-stimulating effect, increases the yield and quality of agricultural crops, has been deposited at the National Bioresource Center All-Russian collection of industrial microorganisms (BRC VKPM) under the number of the State Research and Development Center "Kurchatov Institute" VKPM As-2122.

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