RU2094990C1 - Strain of bacterium bacillus subtilis - a producer of substance showing antifungal activity - Google Patents

Abstract

FIELD: agriculture biotechnology. SUBSTANCE: strain Bacillus subtilis B-40 is obtained by selection method and deposited in Collection of industrial microorganisms in Institute of Genetics and selection at number B-6554. Strain shows antagonistic properties with respect of the following fungi species: Beaweria bassiana, Gliocladium vide, Verticillium nigrescens, Verticillium dahiae, Fusarium graminearum, Sclerotia sclerotium, Phytophtora infestants. New strain produces an agent showing antifungal activity. EFFECT: strain indicated above. 1 tbl

Description

 The invention relates to agricultural biotechnology and relates to methods for protecting cultivated plants from damage by pathogens of fungal diseases.

 Crop losses from damage to agricultural plants by pests and pathogens are palpable, and work is ongoing to expand the arsenal of plant protection products and improve them.

 Given the pressing environmental problems, the most promising way to protect plants is to find effective biological plant protection products, including from infectious diseases.

A known method of protecting plants from diseases, which reduces to obtaining certain varieties of cultivated plants that are resistant to certain diseases [1]
The practical implementation of this method is associated with lengthy research work and, in addition, only some of the most valuable varieties can be given resistance to specific diseases.

Known is the ability to increase the resistance of plants to pathogens as a result of preliminary treatment of plants with incompatible races of phytopathogens or their weakened cultures [2]
Using this method, however, cannot completely exclude the possibility of the occurrence of epiphytoties.

A method for protecting plants from infectious diseases is described, which consists in treating plants with a lipoglycoprotein complex isolated from the mycelium of the causative agent of late blight and giving, in particular, potato resistance to this disease [3]
The relative disadvantage of this method is the need for preliminary accumulation of significant amounts of biomass of pathogenic fungus from which a protective preparation should be isolated.

 It is well known that many bacteria form complexes of biologically active substances with antibiotic activity, which makes individual strains of such bacteria and the products synthesized by them potential protectants of plants from phytopathogens.

 A number of bacteria are able to synthesize biologically active substances that exhibit antifungal activity, including against phytopathogenic fungi that cause plant diseases such as root rot, late blight, and the like.

Known, for example, the bacterial strain Bacillus subtilisESC} IPM-215, which is the closest analogue (prototype) of the proposed strain, which forms a complex of biologically active substances, potentially applicable for the control of pathogens of fungal diseases of plants [4]
However, this strain forms a complex of biologically active products that do not possess antifungal activity sufficient for practical use both in the spectrum of biological activity and in the severity of this property.

 The purpose of the invention is to find a bacterial strain biosynthesizing metabolites with pronounced antifungal activity against plant pathogens, which could find practical application in agricultural practice.

 As a result of a long search and selection work, the applicant isolated and identified a strain of Bacillus subtilis B 40 with the desired properties.

 This strain was isolated from the soil of the Middle Strip of Russia after a multi-stage natural selection on an agar medium.

 The inventive strain has the following characteristics.

 Morphological and cultural characteristics. Meat peptone agar. Colonies have a diameter of 4 to 6 mm. Light gray, matte, with a wavy edge, flat, rising to the center. The consistency of the colony on the edge of the dry, viscous in the center, lasting when removed from the surface of the medium.

 Potato agar. Colonies reach a diameter of 5 to 8 mm. Creamy beige, with a folded surface and a wavy edge. Flat, slightly rising above the surface.

 In a live droplet preparation under a microscope, oval-shaped moving sticks are 0.5 0.8 x 1.0 2.0 μm in size. Gram stain is negative. They are arranged one by one or in pairs. Disputes have a subterminal location.

 Physiological and biochemical characteristics.

 Poorly assimilates glucose, maltose, sucrose.

 Does not absorb sorbitol, lactose, mannitol, arabinose, rhamnose, salicin.

 Active against esculin.

 Milk coagulates and peptones without the formation of pigment, gives zones of enlightenment on milk agar.

 Gelatin liquefies.

 Does not form lecithinase on egg-yolk media.

 Does not form urease on urea medium.

 On potato slices gives abundant growth without the formation of pigment.

 On the meat and peptone broth on the third day forms a film without the formation of pigment.

 The culture is stored on beveled meat-peptone or potato agar in test tubes at a temperature of from -2 to -4 degrees for 2 3 months without reseeding or in lyophilized form in ampoules for 1 2 years.

 Antagonistic properties.

 Suppresses the growth of mushrooms. Beaweria bassiana of the pathogen of white muscardine. Gliocladium vide of the causative agent of grape rot. Sclerotinia sclerotiorum - the causative agent of white rot. Cotton swab pathogen verticillium dahliae. Phytophtora infestans potato rot pathogen.

 Strongly inhibits the growth of the fungus. Fusarium graminearum of the root rot pathogen of cereals.

 The strain releases a complex of unidentified biologically active substances with antifungal activity on Wednesday.

 The strain was deposited in the Collection of industrial microorganisms of the Scientific Research Institute of Genetics and Selection of Industrial Microorganisms under registration number B-6554.

 The advantages of the proposed strain of Bacillus subtilis B-40 over its closest analogue arise from the comparative tests given in the following table of these strains.

 In addition, the proposed strain, in contrast to the known one, synthesizes the restriction enzyme Bam HI, which is used in genetic engineering.

 The essence of the proposal is explained in more detail in the following examples.

 Example 1. The seed material Bacillus subtilis B-40, obtained by flushing the culture from the jamb, seeded with a liquid nutrient medium containing (wt.) Fodder yeast (2.5) and corn flour (1.5). The pH of the medium was 7.1.

 Cultivation was carried out in 250 ml flasks filled with 40 ml of medium on a rocking chair at a speed of rotation of 350 rpm at a temperature of 37 degrees.

In the process of growth, the following stages of culture development were noted:
spore germination 0.6 1.0 h
vegetative growth 1.0 10.0 h
spore formation 10.0 16.0 h
spore maturation 16.0 24.0 h
Obtained at 12 hours of growth, the culture fluid 95% inhibited the development of a test culture of Phytophtora infectans pcs. 216 and pcs. 97
Example 2. The fermenter, a volume of 5.0 l was seeded with sowing material of Vacillus subtilis B-40, obtained by washing 0.85% solution of sodium chloride culture with agar medium ("MPA" KA).

 The fermentation medium contained (wt.) Feed yeast 2.5% corn flour 1.5 and water.

 Cultivation was carried out at a temperature of 37 + 1 degrees and aeration intensity of 0.5 to 1.0 l of air / volume of medium.

 The fermentation duration was 16 hours.

 The filtrate of the culture fluid suppressed the development of test culture of Phytophtora infestans by 90%.

The proposed strain, based on its studied properties, can find practical application in two qualities:
as a producer of a complex of biologically active substances or individual components of this complex, which have antifungal activity against a number of phytopathogens;
as an active component of biological plant protection products, being included in the composition of these funds for the direct treatment of plants.

 The presented results indicate a sufficiently high level of accumulation of the proposed strain of substances with antifungal activity and the possibility of its successful cultivation in production conditions.

Claims (1)

 The bacterial strain Bacillus subtilis VKPM B-6554 is a producer of a substance with antifungal activity.

Images