RU2596922C2 - Strain of fungus mortierella alpina for obtaining highly active plant growth regulator - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: disclosed is a strain of fungus Mortierella alpina VKPM F-1134 for production of a complex of fatty acids with predominance of arachidonic acid, having growth-regulating effect in relation to plants. Strain is isolated from rhizosphere of winter wheat grown in Iglinsky district of Republic of Bashkortostan. Strain synthesizes a complex of fatty acids, having physiological activity with respect to plants, among which there is not less than 50 % by weight of arachidonic acid.

EFFECT: invention provides growth-stimulating activity on a wide range of agricultural crops, enhancing seed germination, promoting increase of vegetative mass of plants and improved formation of photosynthesis mechanism, increasing crop yield.

1 cl, 1 tbl

Description

The invention relates to agricultural microbiology, in particular to producers of substances physiologically active in relation to plants, which can be used to treat a wide range of cultivated plants, including cereals, legumes, vegetables, fruits and berries, etc.

Known strain Mycelia sterilia (VKPM F-833) is a producer of a complex of biologically active substances, including arachidonic acid, with growth-regulating properties (RU, patent No. 2237088, publ. September 27, 2004). The disadvantage of this strain is the length of the growth period (up to 30 days), the exactingness of the presence of an additional growth factor in the liquid culture medium and the limited effect of its metabolites only on growth stimulation.

Known strain Mortierella hygrophila VKM F-1854, capable of producing a complex of fatty acids with arachidonic acid content up to 45% of the total fatty acids (RU, patent No. 2058078, publ. 04/20/1996). The disadvantage of the product of this strain is the relatively low yield of the target product, the need to add peptone and yeast extract to the medium, which contributes to a noticeable rise in price of the medium and its limited effect only by immunization.

The prototype of the claimed invention is a strain of Mortierella alpina Peyronel BS-2 (VKM F-3625D) for the production of polyunsaturated higher fatty acids and their derivatives (RU, No. 2140980, publ. 10.11.1999). The disadvantage of this strain is the inability to synthesize heptadecanoic and eicosanoic acids.

The objective of the invention is to obtain a new strain that produces, in addition to arachidonic acid, other fatty acids with biological activity in relation not only to plants, but also to various representatives of the concomitant microflora, and growing at the same time on cheap nutrient media.

This problem is solved by isolating a new strain of Mortierella alpina VKPM F-1134 for the production of a complex of fatty acids with a predominance of arachidonic acid, which exhibits a growth-regulating effect in relation to plants.

The strain was isolated from the rhizosphere of winter wheat grown in the Iglinsky district of the Republic of Bashkortostan.

When grown on medium composition: potato - 90 g, sucrose - 10 g, water - 882 g the strain has the following cultural and morphological features: the colonies look like rosettes of small blades; aerial mycelium transparent in small lobes; in the colony, substrate mycelium predominates - plentiful, white cotton-like, with a large number of anastomoses. The length of the sporangiophores is 50-100 microns, the diameter of the bases of the sporangiophores is 4-5 microns, the diameter of the apex of the sporangiophores 1.2-2 microns. The size of sporangia does not exceed 8-10 microns. The fungus forms spores (2 × 3-4 μm) and thick-walled rounded stylospores (35-40 μm). Special signs include the smell of rancid fat and the ability to spread mycelium beyond the walls of the vessels in which the fungus is grown, or beyond the substrate when growing in a humid environment (the so-called Bachmann sign).

Physiological and biochemical characteristics of the strain Mortierella alpina F-1134: Strain saprophyte, aerob, grows in the pO ₂ range from 15 to 100% of air saturation, does not grow under anaerobic conditions. It is able to grow in the range from 5 to 30 ° C. The optimum temperature for growth is 20-25 ° C. It grows in the pH range from 5.4 to 8.0, the optimal pH value is 6.5-7.2. It utilizes starch, glucose, fructose, sucrose, lactose, maltose, mannose, dextrin, galactose, glycogen, ammonium forms of nitrogen, amine forms of nitrogen (peptones, yeast extract, hydrolysates of meat, fish meal), n-paraffins of oil.

The strain synthesizes a complex of fatty acids with physiological activity in relation to plants, among which at least 50% by weight of arachidonic acid. According to studies conducted in conjunction with VNIIA them. D.N. Pryanishnikova, this complex of fatty acids has growth-promoting activity, enhancing seed germination, contributing to an increase in the vegetative mass of plants and better formation of the photosynthetic apparatus, increasing yield, as well as immunomodulating properties, widely known for arachidonic acid, manifested in a reduction in the incidence of plants by root rot, septoria rust, , scab, etc. The listed effects were observed in such economically important crops as winter and spring wheat, winter crops th and spring barley, winter rye, potatoes, soybeans, tomatoes, sugar beets, etc. Thus, two-year field trials of the effectiveness of 1% of the mass. complex of fatty acids in the form of an alcohol solution (hereinafter composition) showed the following results:

- winter wheat - the use of the composition on winter wheat of the Governor of the Don variety in the Tambov region did not significantly affect the height of the plants and the change in their bushiness, both general and productive. However, under the influence of the drug, the spike length increased by 0.1 cm; the number of grains in the ear - 1-2 pcs. and the mass of grain, both from an ear and from a plant, which contributed to an increase in the yield of winter wheat. The yield increase was 0.8-1.5 kg / ha or 2.7-5.1% compared with the control (29.6 kg / ha). The greatest increase was obtained when applying the composition at a dose of 1.0 ml / t + 1.0 ml / ha. The content of crude protein in grain under the influence of the drug increased by 0.23-0.99%, gluten - by 1.6-2.4%. In the variant with the composition at a dose of 2 ml / t + 20 ml / ha, the weight of 1000 grains increased by 0.9 g, the natural weight of the grain increased by 18-20 g / l when applying the composition, here the best indicator was noted at a dose (1, 0 ml / t + 1.0 ml / ha) (GNU Tambov Research Institute of Agricultural Sciences, 2012).

In 2013, the use of the composition increased the field germination of seeds, accelerated the passage of the main phases of development by plants by 7-10 days, and increased plant safety by the harvesting period by 1.4-19.4%. The productivity of winter wheat compared with the control increased by 2.7-3.9 kg / ha (7.8-11.2%) with the yield in the control of 34.8 kg / ha. The greatest increase was obtained from the use of the composition at a dose of 2.0 ml / t + 2.0 ml / ha (GNU VNIIA of the Russian Agricultural Academy, 2013).

Studies conducted in the Republic of Bashkortostan showed that pre-sowing treatment of seeds of winter wheat of Bashkir 10 variety with the composition contributed to increasing seed germination and accelerating the passage of phenophases by 3-9 days. The use of the plant growth regulator had a significant positive effect on the physiological and biochemical processes in the plant, and also helped to reduce the infectious background. The prevalence of brown rust when applying the composition reached 16.5-20.8%, septoria - 17.5-24.1%, in the control the distribution of brown rust was 24.7% and septoria - 33.5%. The use of the drug had a positive effect on the increase in the number of grains in the ear - by 5-7 pcs. grain weight per spike - by 0.36-0.40 g, weight of 1000 grains - by 1.6 g. The yield increase was 6.3-7.0 kg / ha or 37.1-41.2% with a yield of control 17.0 c / ha. Gluten content increased by 2.2-2.4%, protein - by 1.2-1.3%. The highest yield increase was obtained at a flow rate of 2.0 ml / t (seeds) + 2.0 ml / ha (plants) (GNU BashNIISKh of the Russian Agricultural Academy, 2012).

In 2013, the use of the composition on winter wheat of Bashkir 10 variety had a positive effect on increasing the resistance of plants to damage by Septoria (biological efficiency - 76.2%) and brown rust (biological efficiency - 51.1-53.5%). Under the influence of the drug, the process of formation of the assimilation surface of plants is activated, the safety of the leaf apparatus and the increase in the duration of its functioning are increased. The increase in grain yield amounted to 7.5-8.0 kg / ha (33.3-35.5%) with the yield in the control of 22.5 kg / ha. The use of the composition contributed to an increase in the protein content in grain by 1.8-2.3%, gluten by 2-4% (GNU BashNIISKh of the Russian Agricultural Academy, 2013).

- buckwheat - in the Tambov region the use of the composition on buckwheat of the Nine variety helped increase field germination of seeds by 9-11% and the safety of plants for harvesting by 14-22%. The greatest efficiency was noted when using the drug for presowing seed treatment at a dose of 1 ml / t + spraying plants at a dose of 3 ml / ha. The number of branches on the plant increased by 0.14 pcs., The number of inflorescences - by 0.9 pcs., Grain weight - by 0.1 g. The yield increase was 2.8 t / ha or 15.4% with the yield in control 18 , 2 t / ha (GNU Tambov Research Institute of Agricultural Sciences, 2012).

In 2013, buckwheat of the Nine-grade variety noted a positive effect of the composition on field germination and plant survival for harvesting. The number of branches on a plant during treatment with the composition increased by 6.7%, the number of inflorescences - by 0.9 pcs. / Plant, the number of seeds - by 9 pcs. / Plant, the mass of grain - by 0.2 g. The seed yield increased - by 8.9 kg / ha (27%) with the yield in the control of 33.1 kg / ha. The greatest efficiency was noted when applying the composition at a dose of 0.5 ml / t + 5.0 ml / ha (GNU VNIIA of the Russian Agricultural Academy, 2013).

The use of the composition on the culture of buckwheat of the Agidel variety in the conditions of the Republic of Bashkortostan for seed treatment before sowing made it possible to increase the field germination of buckwheat seeds to 95% (88% in the control variant). Subsequent spraying of plants had a positive effect on growth and shaping processes, as well as on increasing the resistance of plants to diseases. The safety of plants for harvesting was 88.3-89.8%, higher than in the control by 4.0-5.5%. Plant height increased by 10 cm, the number of inflorescences on the plant (main and lateral shoots) - by 1.0-1.5 and 2.0-3.0 pcs. accordingly, the number of flowers in the inflorescence of the main shoot is 8.3-8.5 pcs., the number of flowers in the inflorescence of the side shoots is 7.6-9.5 pcs., the number of fruits on the main shoot is 3.9-4 , 0 pcs. and on the side shoots - 1.8-2.0 pcs. The buckwheat grain yield increase was 0.4-0.43 t / ha or 25.5-27.4%, while the yield in the control was 15.7 kg / ha. The weight of 1000 grains under the influence of the drug increased by 1.8-2.0 g, protein - by 1.2-1.3%, crude protein - by 0.8-1.0%, grain size - by 9.2- 9.5% (State Scientific Research Institute of Agricultural Sciences, 2012).

In 2013, the use of the composition on buckwheat of the Agidel variety had a positive effect on the germination energy and seed germination. The safety of plants by the harvesting period increased by 10%. The weight of 1000 grains under the influence of the drug increased - by 10 g (7%), nature - by 14-15 g, grain size - by 9 g. The increase in seed yield was 4.3-6.0 kg / ha (27.4-38 , 2% when the yield in the control was 15.7 kg / ha, The highest efficiency was noted when applying the composition at a dose of 0.5 ml / t + 5.0 ml / ha (GNU BashNIISKh of the Russian Agricultural Academy, 2013).

- peas - in the Tambov region, the use of the composition on peas of the Madonna variety contributed to an increase in field germination of seeds by 13-18%. Under the influence of the drug, the resistance of plants to the defeat of ascochitosis increased by 5-10%. The number of seeds on the plant increased by 5 pcs., The mass of seeds - by 0.7-1.2 g, the number of beans - by 1-2 pcs. The yield increase amounted to 2.9-4.9 kg / ha or 24.2-40.8% with the yield in the control of 12.0 kg / ha. The greatest efficiency was noted when using the drug for presowing treatment of seeds at a dose of 2 ml / t + spraying plants at a dose of 10 ml / ha. The growth regulator did not affect the quality of seeds, the weight of 1000 grains, the nature and content of crude protein in the grain remained at the control level (GNU Tambov Research Institute of Agricultural Sciences, 2012).

In 2013, on the Madonna pea variety, the use of the composition in the Tambov Region contributed to the better preservation of pea plants for harvesting. The use of the composition did not affect the number of grains from 1 plant. The largest mass of grain per plant (2.315 g) was noted when the composition was used in doses of 1.0 ml / t + 3.0 ml / ha; in other experimental variants, this indicator was at the control level. The yield increase was within the experimental error and amounted to 0.9-1.3 c / ha, while the yield in the control was 15.1 c / ha. The highest content of crude protein in grain was noted when using the composition, it amounted to 28.50-28.52% and was higher than in the control by 0.82-0.80% (GNU VNIIA of the Russian Agricultural Academy, 2013).

In the Republic of Bashkortostan, the use of the composition on peas of the Chishminsky 229 variety contributed to a significant increase in field germination and provided favorable conditions for the formation of the basic elements of the crop structure. The number of plants by the harvesting period under the influence of the preparation was 91.9-92.0 pcs / m ² (in the control - 70.7 pcs / m ² ). The number of beans on the plant increased by 1.1 pcs., The number of grains in the bean - by 0.4-0.6 pcs., The weight of 1000 grains - by 22-25 g. Grain yield increase of 2.4-2.5 c / ha or 19.4-20.2% with a yield in control of 12.4 kg / ha. The crude protein content in the grain increased by 2.3-2.6%. The use of the composition for treating pea seeds and crops had a positive effect on the resistance of plants to disease damage. The degree of development of rust decreased - by 5-7% (in the flowering phase) and by 12-14% (in the ripening phase). The greatest efficiency in terms of the set of indicators was noted when applying the composition at a dose of 1 ml / t + spraying plants at a dose of 1 ml / ha (GNU BashNIISKh of the Russian Agricultural Academy, 2012).

In 2013, the use of the composition on peas of the Chishminsky 229 variety had a positive effect on the field germination of seeds and the survival of plants for harvesting. Under the influence of the drug, the resistance of plants to damage by fungal diseases increased. The number of grains in the bean increased by 1.1 pcs., On the plant - by 3 pcs., The mass of seeds from the plant - by 0.6-1.2 g. Yield increased by 4.0 kg / ha (0.9%) with the yield in the control of 8.0 c / ha (GNU BashNIISH Agricultural Sciences, 2013).

- sunflower - tests of the composition on the sunflower cultivar of Favorit cultivar in the conditions of the Republic of Bashkortostan showed that seed treatment slightly increases their sowing qualities (germination energy, laboratory and field germination). Subsequent spraying of sunflower plants with the drug in a phase of 3-6 leaves had a stimulating effect on growth and morphogenesis. The diameter of the basket increased - by 0.6-1.0 cm, the weight of the basket with seeds - by 18.1-18.6 g, the number of seeds in the basket - by 38-42 pcs., The weight of seeds from the basket - by 6.8 -7.0 g. The highest values of the considered indicators are noted in the composition variant 1 ml / t + 5 ml / ha. Under the influence of the drug, an increase in the resistance of plants to damage by phomopsis was noted. The increase in the yield of sunflower seeds amounted to 2.2-2.7 kg / ha or 17.2-21.0% with a yield in the control of 12.3 kg / ha. The weight of 1000 seeds increased by 1.6-2.1 g, the oil content in seeds - by 3.4-3.6%, nature - by 19.3-21.9 g / l. Oil collection per hectare increased by 0.2 t / ha. The most effective was the use of a composition for treating seeds at a dose of 1 ml / t followed by spraying of plants at a dose of 5 ml / ha (GNU BashNIISH Agricultural Sciences, 2012).

In 2013, the use of the composition on the Yenisei sunflower had a positive effect on the germination energy and seed germination. The diameter of the basket under the influence of the drug increased - by 2.2-4.6 cm, the weight of the basket - by 54-65 g, the number of seeds in the basket - by 42-46 pcs., The weight of seeds from the basket - by 0.8-2, 0 g. The increase in seed yield was 2.3–2.8 kg / ha (20–24%) with a control yield of 11.7 kg / ha. The oil content in the seeds under the influence of the drug increased by 3-4%, the collection of oil per hectare - by 0.10-0.21 tons. The greatest efficiency was noted when using the composition at a dose of 1.0 ml / t + 5.0 ml / ha (GNU BashNIISKh Agricultural Academy, 2013).

In the Belgorod region, tests of the composition on a hybrid of sunflower Donskaya 1448 showed that seed treatment before sowing and subsequent spraying of plants had a positive impact on crop productivity. The diameter of the basket under the influence of the drug increased by 1.0-1.3 cm, the weight of seeds from the basket - by 7.4-10.6 g, the weight of 1000 seeds - by 6.5-7.1 g. Seed yield increased by 0 , 5-0.7 t / ha or 20.0-28.0% when the yield in the control is 2.5 t / ha. Oil content of seeds increased by 0.8-1.1% and oil collection per hectare - 0.3-0.4 t / ha. The best results were noted when using the drug for seed treatment before sowing at a dose of 1.0 ml / t and spraying plants at a dose of 5.0 ml / ha (GNU Belgorod Research Institute of Agricultural Sciences, 2012).

In 2013, when applying the composition to the Donskaya 1448 sunflower hybrid, the diameter of the basket increased by 1.3–1.6 cm, the weight of seeds from the basket increased by 8.3–11.1 g, and the weight of 1000 increased by 6.4–7. 5 g. Seed productivity increased by 0.6-0.8 t / ha (21-29%) with the yield in the control of 2.8 t / ha. Oil content of seeds increased by 1.1-1.4%, sugar collection - by 0.4-0.5 t / ha. The greatest efficiency was noted when applying the composition at a dose of 1.0 ml / t + 5.0 ml / ha (GNU BelNIISH Agricultural Sciences, 2013).

- corn - tests of the composition in the Stavropol Territory on maize varieties Mashuk 355 MB and Mashuk 250 CB showed that pre-sowing seed treatment had a positive effect on field germination of seeds and the preservation of plants for harvesting. The plant standing density for harvesting when applying the composition was 57.2-58.2 thousand / ha, in the control -55.2 thousand / ha. The yield of green mass increased by 3.42-6.42 t / ha or 9.0-16.8% with a yield in control of 38.13 t / ha. The composition affected the grain yield increase slightly. An insignificant yield increase of 0.24 t / ha or 3.5% was noted only when applying the composition at a dose of 1.0 ml / t of seeds and 1.0 ml / ha (in the control of 6.84 t / ha). The weight of the cob increased by 5.5 g, the weight of the grain from the cob by 7.4 g. Under the influence of the preparation, the resistance of plants to disease damage increased. Affection of ears of corn with fusarium decreased by 5-11%, gray rot - by 2-4%, bubbly smut - by 1.2-1.3% (GNU VNII corn of the Russian Agricultural Academy, 2012).

In 2013, the use of the composition on the Mashuk 355 MB corn hybrid had a positive effect on plant height and green mass productivity by 0.57-4.14 t / ha (1.2-8.8%) with a control yield of 47.17 t / ha. The number of ears of corn increased by 3-4 pcs / 100 plants, the weight of the ears of corn by 11-12 g, the weight of the ears of corn by 10 g. The increase in grain yield was 0.9-1.3 t / ha (10.2-14 , 8%) with a yield in the control of 8.81 t / ha. The greatest efficiency was noted when applying the composition at a dose of 1.0 ml / t + 1.0 ml / ha (GNU All-Russian Research Institute of Corn of the Russian Agricultural Academy, 2013).

In the Rostov region, the use of the composition on a hybrid of corn Zernogradsky 330 MB had a positive effect on growth and shaping processes. The number of grains in the cob under the influence of the drug increased by 19-20 pcs., The weight of the grain from the plant was 4.3-6.2 g. The increase in grain yield was 2.0-2.9 t / ha or 5.7-8 , 2%, with a control yield of 35.2 t / ha. The protein content in the grain remained at the level of the control variant. The highest productivity was noted when applying the composition at a dose of 1.0 ml / t of seeds and 1.0 ml / ha (DonGAU, 2012).

- sugar beets - tests of the composition on sugar beets in the Republic of Bashkortostan conditions showed that growth and shaping processes are enhanced under its influence. The productivity of root crops increased by 26.4-39.3 c / ha or 7.1-11.0%, while the yield in the control was 245.8 c / ha. The highest sugar content of root crops was obtained using the composition (1 ml / t + 5 ml / ha), which amounted to 18.16%, followed by the composition option (1 ml / t + 3 ml / ha) - 18.08%, in the control this the indicator was 17.67%. Sugar yield per hectare increased by 0.64-0.68 or 9.8-10.4% (in the control - 6.54 t / ha). The highest yield and quality of sugar beet root crops is ensured by the composition during pre-sowing treatment of seeds at a dose of 1.0 ml / t and subsequent spraying on the vegetation of plants in the closing phase of the rows at a dose of 5.0 ml / ha (GNU BashNIISH Agricultural Academy, 2012).

In 2013, the use of the composition on sugar beet of the Ramonsky single-seed 47 variety had a positive effect on the germination energy and seed germination. The increase in the yield of root crops was 31-33 t / ha (9.9-10.5%) with the yield in the control of 313 t / ha. Sugar content of root crops under the influence of the composition increased by 1%, sugar collection per hectare - by 18-19 c. The greatest efficiency was noted when applying the composition at a dose of 1.0 ml / t + 5.0 ml / ha (GNU BashNIISKh of the Russian Agricultural Academy, 2013).

In the Belgorod region, tests of the composition on a hybrid of sugar beet Cascade showed that seed treatment before sowing and subsequent spraying of plants had a positive effect on crop productivity. The yield of root crops increased by 2.8–4.7 t / ha or 10.8–18.1% with the yield in control of 25.9 t / ha. Sugar content of root crops increased by 0.3-0.8% and sugar collection per hectare - by 0.6-1.1 t / ha. The best results were noted when using the drug for seed treatment before sowing at a dose of 1.0 ml / t and spraying plants at a dose of 5.0 ml / ha (GNU Belgorod Research Institute of Agricultural Sciences, 2012).

In 2013, when applying the composition to the Cascade sugar beet hybrid, the root crop yield increased by 5.0-6.4 t / ha (16-21%) with the control yield of 31.2 t / ha. Sugar content of root crops increased by 1.5-1.6%), sugar collection - by 1.3-1.6 t / ha. The greatest efficiency was noted when applying the composition at a dose of 1.0 ml / t + 5.0 ml / ha (GNU BelNIISH Agricultural Sciences, 2013).

- white cabbage - tests conducted on a hybrid of white cabbage Valentine F ₁ in the conditions of the Moscow region showed that treatment with the composition had a positive effect on the timing of the passage of the main phenophases. The phase of setting heads headed for 2-3 days, and technical ripeness 4-6 days earlier than on control plants. The treatment of plants with the composition contributed to the mass of head of cabbage at 0.17-0.22 kg. The increase in the total yield was 4.6-5.7 t / ha or (6.7-8.3%), while the yield in the control variant was 68.6 t / ha, including the output of standard products at 5.6- 8.7 t / ha (in the control - 64.2 t / ha). Under the influence of the composition in heads of cabbage, the sugar content increased by 0.3-0.5% and vitamin C by 1.1-1.7%. The content of nitrate nitrogen in the products in all variants of the experiment was significantly lower than the MPC. High palatability of products was noted. The best results were noted when applying the composition for soaking seeds before sowing at a dose of 0.5 ml / kg of seeds and subsequent spraying of plants at a dose of 5 ml / ha (GNU VNIIO Russian Agricultural Academy, 2012).

In 2013, on a hybrid of white cabbage Valentine F1, the use of the composition contributed to an increase in the diameter of the head - by 0.9-1.4 cm, the weight of the head - by 0.21-0.35 kg. Under the influence of the composition, the incidence of plants with alternariosis and vascular bacteriosis decreased. Productivity increased by 7.1-12.0 t / ha (12.4-20.9%) with yield in the control of 61.4 t / ha. The output of standard products increased by 0.6-2.8%. When using the composition, the solids content in heads of cabbage was 7.4%, sugar 4.2-4.3%, vitamin C 31.4-32.9 mg /%, nitrates 237-252 mg / kg and a tasting score of 4 points . In the control, these indicators were 7.1%, 4.1%, 29.7 mg /%, 344 mg / kg and 3, respectively. The greatest efficiency was noted when applying the composition at a dose of 0.2 ml / kg + 5 ml / ha (GNU VNIIO Russian Agricultural Academy, 2013).

In the Krasnodar Territory, the treatment of seeds and plants of white cabbage Kharkiv winter with a composition contributed to the formation of larger heads in size and weight of heads of cabbage for 170-240 g.

The yield increase was 66.2-81.9 kg / ha (20.7-25.6%), while in the control it was 320.0 kg / ha. The sugar content in heads of cabbage increased by 0.4-0.7%, vitamin C - 2.8-5.0 mg / 100 g cheese. in-va. The maximum increase in the yield of good quality white cabbage was obtained using the composition (0.2 ml / kg + 5.0 ml / ha) (FSBEI HPE KubSAU, 2012).

In 2013, the use of the composition on white cabbage of Slava variety facilitated an earlier passage of the vegetation phases. Under the influence of the drug, more powerful plants formed. The diameter of head is increased by 4,2-14,5 cm of head weight - 402-1395 g at yield increased - to 1,6-2,7 kg / m ² (19,5-32,9%) with yields in control 8.2 kg / m ² . The sugar content in heads of cabbage has increased - by 0.1-0.6%, vitamin C - by 3.1-10.2 mg / 100 g cheese. in-va. The greatest efficiency was noted when applying the composition at a dose of 0.2 ml / kg + 5 ml / ha (FSBEI HPE KubSAU, 2013).

The strain is stored in the form of a suspension of spores in distilled water at 3-4 ° C while maintaining viability for 4-5 years. Less extended storage is carried out on the tapered Czapek agar medium (g / l: glucose - 20; NaNO ₃ - 2,0; KH ₂ PO ₄ - 1,0; MgSO ₄ - 0,5; KCl - 0,5; FeSO ₄ - 0.1; agar-agar - 20; CaCO ₃ - 3; distilled water - up to V = 1000 ml) in test tubes under cotton-gauze plugs at a temperature of 3-4 ° С with transfers once every three months.

Growing the fungus to produce the desired product by surface cultivation is carried out at a temperature of 25 ° C and pH = 7.0 _early in petri dishes with 5 grams of the medium (the height of the substrate layer 2 mm) of the following composition: potato - 600 g glucose - 60 g water - 440 g.

For inoculation of Petri dishes, a suspension of spores and fragments of mycelium (2.5 ml / 5 g of culture medium) is used, obtained by flushing the culture with sterile tap water, with Chapek’s medium beveled in tubes (2-3 × 10 ⁶ fragments of mycelium and spores / cm ³ ) . Within 18-19 days, the maximum yield of arachidonic acid at the level of 12 g / kg of medium is ensured.

The fatty acid composition is determined by: A.S. 968072. USSR, MKI C12Q 1/100. / Sultanovich Yu.A., Nechaev A.P., Barsukova I.A. A method for the quantitative determination of the fatty acid composition of lipids of microorganisms. - // BI - 1982. - No. 39. S. 223. A typical composition of fatty acids extracted from the mycelium Mortierella alpina VKPM F-1134, are shown in table 1.

According to the table, the strain synthesizes a wide range of fatty acids, and depending on the cultivation conditions, their ratio may vary, however, there were no cases when the content of arachidonic acid was below 50%. The high physiological activity of the product Mortierella alpina VKPM F-1134 is ensured by the fact that, along with arachidonic acid, other fatty acids are also able to have a positive effect on plant life. So, for example, myristic (14: 0) and palmitic (16: 0) acids are able to enhance seed germination. Myristic, palmitic, oleic (18: 1), linoleic (18: 2) and linolenic (18: 3) acids can suppress the growth of at least one of such phytopathogens as Rhizoctonia solani, Pythium ultimum, Pyrenophora avenae, Crinipellis perniciosa, Alternaria solani , Colletotrichum lagenarium, Fusarium oxysporum. A distinctive feature of this strain is the ability to biosynthesis of heptadecanoic (17: 0) and eicosanoic (20: 0) acids. For heptadecanoic acid, the ability to inhibit the synthesis of sterigmatocystin, a compound that is a metabolic precursor of aflatoxin in phytopathogenic fungi Aspergillus flavus and A. parasiticus, is shown, which leads to a significant decrease in the content of this mycotoxin in crop products (Y.-Q. Zhang, M. Brock, NP Keller. Connection of propionyl-CoA metabolism to polyketide biosynthesis in Aspergillus nidulans. Genetics. 2004.168. P. 785-794). Eicosanoic acid attracts and stimulates the growth of the entomopathogenic fungus Beauveria bassiana, which effectively reduces the number of many insect pests, including various aphids (B. Szafranek, E. Malinski, J. Nawrot, D. Sosnowska, M. Ruszkowska, K. Pihlaja, Z. Trumpakaj, J. Szafranek. In vitro effects of cuticular lipids of the aphids Sitobion avenae, Hyalopterus pruni and Brevicoryne brassicacae on growth and sporulation of the Paecilomyces fumosoroseus and Beauveria bassiana. Arkivoc. 2001. P. 81-94). Thus, the complex of fatty acids produced by Mortierella alpina VKPM F-1134 can be a growth regulator not only for plants, but also an inhibitor for phytopathogens and, indirectly, some insect pests.

The strain is not zoo and phytopathogenic and does not pose a threat to the environment.

The technical result of the invention is to obtain a strain producing a complex of fatty acids with a predominance of arachidonic acid, which has high biological activity and is a potential basis for a complex biological product for crop production.

Claims (1)

The strain of the fungus Mortierella alpina VKPM F-1134 for the production of a complex of fatty acids with a predominance of arachidonic acid, exhibiting a growth-regulating effect in relation to plants.