UA21785U - A strain of bacteria of rhizobium leguminosarum bv. trifolii - Google Patents

Abstract

A strain of bacteria Rhizobium leguminosarum bv. trifolii BN9 for making bacterial fertilizers for trefoil.

Description

Description of the invention

A useful model applies to agriculture to microbiological means of improving the productivity of clover, namely to new strains of KPigorisht Iediptiposagyt Bu. (producers for the production of bacterial fertilizers for the mentioned culture.

In our country, red clover is the main perennial leguminous crop in areas with a moderate and humid climate. Increasing the productivity of clover can be achieved by strengthening the process of biological nitrogen fixation in it by treating seeds with selective strains of nodule bacteria capable of forming a highly active symbiosis with this plant. In production conditions, the basis of nitrogen-fixing bacterial preparations are mostly production strains of nodule bacteria, the list of which is limited or even insufficient in terms of complementarity with certain varieties.

The known strain of bacteria KPygobrisht ihitoii 1360 was isolated from nodules of meadow clover | Author's certificate ЗО 1555320 А17 5С О5Е 11/08, С 12М 1/20, 1983 Vezhai branch of Litovskogo n.-d. Institute 12 of agriculture. A.B. Lapinskasi, which is used to obtain nitrogen for meadow clover and increases its yield by 12.6 95.

Among the strains used in the countries of Western Europe, the well-known strain METI 1163 I | GDR, economic patent M 247142 АО1С1/06, А 01 М63/00, С 12 К1/411, which increases the yield of dry mass and crude protein without additional nitrogen fertilizers, as well as a strain for inoculation of white clover KPigobitst (higoii 7) Met11255 (GDR economic patent M266256 АО1 Си/О6), which without additional fertilizers increases the yield of dry matter and increases the nitrogen content in plants in growing and field conditions.

For many years, strains of K. Ieditipozagyt Bu have been used for the production of nitragin in Ukraine. igigoii 3446 and 340 (INMI AN of Belarus), 34va (VNDISGM, Russia), which help to increase the yield of red clover. Their disadvantage is that in a number of clover varieties zoned in Ukraine, their nitrogen-fixing activity 29 is not high enough and not always stable. The closest to the proposed strain is K. Iedytipovagyt Bu. (ОЙ пт») 34v8a (VshTseSGM, Russia), obtained as a result of analytical selection. During bacteriization with strain 348va K.

Ieditipozagyt ru. of clovers of the regional varieties Darunok and Kumach, it turned out that the mentioned strain shows weak virulence, which subsequently affects the effectiveness of the created symbiotic clover systems. As a result, this leads to a decrease in efficiency and an unstable crop of clover. at

Along with the selection aimed at the genetic complementarity of symbiopartners, it is advisable to select strains of nodule bacteria that would form highly effective symbiotic systems with a wider range of zoned varieties and would be adapted to the ecological conditions of the environment. -

The task of a useful model is to obtain a strain of nodular clover bacteria with high nitrogen-fixing activity and virulence, which would allow to strengthen the process of symbiotic nitrogen fixation in several 3o zoned clover varieties, increase their productivity and improve the quality of the above-ground mass. high school

This task is solved thanks to the proposed strain Kpigobimp Ieditipozagyt bu. igioiiii WMO. The new strain was obtained by the hybridization method: as a result of intergeneric conjugation between the donor strain Ezspepisnia soi C 5466 and the recipient strain Kpigoricht Ieditiposagyt Bu. igyoiyi V. (1000) MM. As a result of graded selection, the VMO strain was selected from among other conjugants based on increased symbiotic indicators. The peculiarity of Z 50 strain is that after storage for 10 years in the conditions of a museum collection, it retains stability according to genetic markers (resistance to antibiotics), high virulence and nitrogen-fixing activity.

From" Strain K. Ieditipozagyt Bu. The WMO specimen is deposited in the collection of the Institute of Microbiology and Virology of the National Academy of Sciences

of Ukraine (Kyiv) and is stored under the registration number 1МВ В-7196. The strain is characterized by the following physiological and biochemical features: the culture of bacteria is fast-growing, non-spore-bearing, gram-negative. The cells have the form of small rods with a size of 0.7-1.0X2.5-3.0 μm, the rods are mobile. Bacteria do not produce pigment. Colonies that are moderately convex, slimy, and translucent grow over time on the surface of the agar medium. - The proposed strain is a microaerophile. Temperature range of growth: 20-28. The optimal growth temperature is 272C. The pH range is 6.5-7.4. The optimal pH is 7.2. Genetic features: prototroph resistant to a number of their antibiotics (streptomycin sulfate - 250 μg/ml, kanamycin sulfate - 25 μg/ml, tetracycline hydrochloride - (ee) 50 15 μg/ml). The strain is non-pathogenic. sp. The strain was identified by Berga, 1980, M.: "Mir". - P. 495.

Relationship to nitrogen sources - bacterial culture K. Ieditipozagyt Bu. (Oi WMO reduces nitrates and nitrites, assimilates ammonium salts. Uses casein and hydrolyzate of lactalbumin, has catalase and urease activity (assimilates urea). The culture does not dilute gelatin, does not form hydrogen sulfide (Hb5), weakly peptonizes milk. c Relation to carbohydrates - the culture assimilates sucrose, I-arabinose, ХО-arabinose, ribose, ХО-xylose,

O-fucose, I-fucose, maltose, galactose, xylose, melibiose, cellobiose, fructose, mannitol with the formation of acidic products and to a lesser extent lactose and glucose. Raffinose, dextrin, sorbose, | - xylose is not assimilated by the strain. Polysaccharides - starch and glycogen do not hydrolyze. From polyatomic alcohols, mannitol is absorbed. Does not absorb mannitol, sorbitol, 60 inositol. An excellent source of carbon for the studied strain is molasses. Does not form indole, does not grow on

MPB6.5 95 Mass, has growth on MPB2.5 95 Mass, grows well on meat-peptone agar (MLA), on medium

Ashobi Growth on meat-peptone broth at 272C is characterized by turbidity of the medium, the color of which does not change. The culture is well cultivated on media with the following composition: pea agar (g/l: pea - 100, v5 sucrose - 20.0, Mass -1.0, agar - 15-18.0, pH 6.8-7.0. Boil 100 g of peas in 1 liter of water for 30 minutes, infuse for 20 minutes, strain the broth, dissolve additives, sterilize at 1 atm for 30 minutes, pH 68-72.

Mannitol-yeast agar (MDA) (g/l: KYANRO, - 0.5, Mo5O,.7NhO - 0.2, Masi - 01, mannitol - 10.0, yeast extract - 1.0, agar - 15.0 -17.0, dietary water, pH - 7.0 Sterilize at 1 atm 30 min, pH 6.8-7.2.

Synthetic medium 79 (g/l: CoOHPO, - 0.5, Ma5zO,.7NoO - 0.2, Massi - 01, CaSSO" - traces, casamino acids (or lactalbumin hydrolyzate) - 0.1 905 (1 g), mannitol - 10.0, agar - 17.0, dietary water - 1 liter). Sterilize at 0.75 atm for 40 min, pH 6.8-7.2. Has weak growth on potato agar.

The culture is well stored on mannitol-yeast agar (MDA, pH 7.0) or medium 79 (pH 7.2) under mineral oil at room temperature or in a refrigerator at a temperature of 4-59C0 on the same medium without oil. Transplant 1-2 times a year, antibiotics are added to the environment - streptomycin 70 sulfate - 250 μg/ml, kanamycin sulfate - 25 μg/ml, tetracycline hydrochloride - 15 μg/ml. After 20 transplants on medium 79 without antibiotics, strain K. Ieditipozagyt bu. igioiyii VMO grows well on the same medium with the addition of antibiotics - streptomycin, kanamycin and tetracycline, forms whitish translucent colonies that quickly produce mucus.

Pre-sowing seed inoculation was carried out with a bacterial suspension with a titer of 10 9 cells/ml. To obtain it, 75 WMO strains were grown on mannitol-yeast agar at 27 °C for 3-4 days in test tubes.

The agar culture was washed with sterile water, a thick suspension (50 ml) was prepared, which was used to inoculate shake flasks with 350 ml of the medium. Incubation was carried out for 3-4 days at a temperature of 27 C and constant aeration of the growing medium.

For the preparation of the drug on a solid carrier, 20 sterile B5Oml of a suspension of nodule bacteria of the WMO strain were injected into bags with perlite (vermiculite) (130 g/ha) and nutritional supplements (molasses, corn extract, glucose) were mixed well. The bacterial fertilizer prepared in this way was kept at room temperature (18-2022) for 10 days. After thermostating, the titer of bacteria was checked - in 1 g of bacterial preparation on a solid medium (perlite, vermiculite) there should be at least 1-1.5 billion cells of K. Ieditipozagyt ru. the WMO and seed inoculation was carried out. To do this, the hectare rate of seeds was moistened (1-2 95 of water per 25 of the weight of seeds), evenly mixed with a bacterial preparation, dried in the shade and sown in the soil. -at

Another method involves treating clover seeds with an aqueous extract from a bacterial preparation on a solid carrier. For this, 250 g of the drug was diluted in water and filtered through cheesecloth (coarse pearlite particles were thus separated from the main suspension). The obtained suspension was inoculated with a hectare rate of seeds.

Effectiveness of strain K. Ieditipozagyt Bu. (goi WMO were tested on the varieties of clover Darunok and Kumach in about 30 growing seasons (on washed river sand with the addition of Gelrigel mineral medium with 0.2 He standards) of nitrogen), as well as in field conditions on dark gray podzolized (pH 5.3- 5.7) in soil with a humus content of 1.6-2.095 (Cherkassk region, 2003-2005) and on gray forest sandy loam (pH 5.9-6.0, humus content of 1.2-1.595) in soil ( Kyiv region) 2004-2006). Quite aggressive races of spontaneous forms of nodular clover bacteria are widespread in these soils. Clover was sown in the second decade of April with a row width of 45 cm by 35 and a seed wrapping depth of 1.5-2.0 cm. Pre-sowing treatment was carried out 1 hour before sowing the seeds in the soil with a bacterial suspension or a preparation on a solid carrier. Seeds were sown at the rate of 15 kg/ha.

Nitrogen-fixing activity of root nodules of clover plants of the first and second years of vegetation was determined by the reduction of acetylene to ethylene according to the method of Hardy et al. (1968) on a gas chromatograph "Spgotayodgarn-504" with a flame-ionization detector. Roots with nodules were placed in hermetically closed Z 70 glass vials with a capacity of 75 cm?, and 10 95 acetylene from the total volume was injected into them through a rubber membrane. c Duration of incubation with acetylene - 1 hour. Separation of gases was carried out on a column (0.40x13Osm) made of Ragarak:z" M at a temperature of 802С. Nitrogen (50 ml in 1 min.) was used as a carrier gas. Sample volume for analysis - 0.5-1 cm 3,

The amount of ethylene formed from acetylene under the action of nitrogenase of the incubated sample was expressed in molar units (nanomoles (nmol) or micromoles (μmol) of ethylene formed per 1 plant in 1 hour). 7 Determination of stability by plasmid markers of resistance to antibiotics strain K. Ieditipozagyt bu. igioii WMO in conditions of symbiosis (vegetation experiment) showed that reisolates from nodules of 30-day-old plants - and clovers of the first year of vegetation have satisfactory growth on a selective medium with specified -1 concentrations of kanamycin, tetracycline, streptomycin.

The results of the influence of the WMO strain on the yield of the green mass of clover of the Darunok variety in the conditions of the vegetation (ee) experiment are presented in Table 1. The plants inoculated with the proposed strain, by the sum of two slopes of the above-ground mass of sl, prevailed over the production strain by 17.9,905 (28.1 g/ vessel). As a result of active nitrogen fixation, not only the yield of green mass of clover increases, but also the quality of the crop improves due to the increase in its nitrogen content (Table 1). 5 The results of the effectiveness of the proposed WMO strain as an inoculant strain of clover in different soil and climatic zones are shown in Tables 2-5. Under the conditions of a field experiment (Cherkasy region), clover of the Darunok variety inoculated with the WMO strain in the first year of vegetation exceeded the standard strain in terms of nitrogen-fixing activity by 1.4 times (Table 2), in the second year of vegetation - by 1.5 times ( table 3). Inoculation of clover seeds of the Kumach variety with the WMO strain contributed to an increase in nitrogen-fixing activity by 9.2 times (Table 4) compared with spontaneous inoculation and by 1.4 times with treatment with the 348a strain.

Compared to the production strain 348a, the proposed strain reliably increased the yield of green mass of clover of Kumach and Darunok varieties during the entire period of research. The increase in the yield of green mass of clover of the Darunok variety in the first year of vegetation when inoculated with a new strain was 31.7 t/ha (19.2 Ob) - in relation to the control and 28.8 t/ha (17.2) - in relation to the strain - standard Z348a (Table 2). In the second year of the growing season, these values were 77.6 t/ha (26.0) and 51.9 t/ha (16.0 905), respectively (Table 3). The new strain is a highly effective symbiopartner for clover of the Kumach variety, which confirms an increase in the yield of green mass by 33.7 and 36.5 95 (59.9 and 62.1 c/ha) in relation to the control and by 16.3 and 16, 6,905 (33.3 and 33.1 c/ha) - in relation to plants inoculated with production strain 348a (Table 4-5). Pre-sowing treatment with a suspension of nodule bacteria of the VMO strain contributed to earlier (by 5 days) germination of clover seeds compared to plants treated with the production strain 348a K. Ieditipozagyt bu. igitoyii

Bacteria strain 348a K. Ieditipozagyt bu. (goyii) are used in production conditions for the production of bacterial fertilizer, as they have good technological properties. The results shown in Table 6 indicate that the proposed WMO strain K. Ieditiposagyt Bu. (goyii) has high manufacturability and even exceeds the standard strain of the main technological parameter: it reproduces intensively on the appropriate 7/o liquid media and gives a higher titer in the preparation on a solid carrier of perlite (vermiculite).

Table 1.

Inoculation efficiency and nitrogen-fixing activity of Darunok variety clover ("vegetation experiment, 2003)

Strain-inoculant Average yield of green Addition to |Nitrogen-fixing activity, Nitrogen content in Mass content, g/pot of strain 348a |μmoy SoNa4 / (plant.hour) dry above-ground protein, 90 mass, 95 - - o

Standard strain K. 104.8-4.9 52.24) 157.0 1.95--0.31 2.50--0.052.32-0.05 15.62|14.50

Ieditipovagyt was. igitoiyi 348a 0.6

The original strain Kk. 114.4 |46.6- 161.0 4.0 2.6 2.225011 2.710-0.032.30-0.03 16.87 14.37

Ieditipovagyt was. igigoiii 9.54 22 vIptOOOMM

The proposed strain B. 126.30-- | BV | 1851 28.1. (179 3.06-0.07 3.15--0.03| .55-0.05 |19.68 15.81

Ieditipovagyt Bu. funds of the VMU | 3.02 0.7 vv 00111111 8535005 what 2

Table 2.

Harvest of the green mass of clover of the Darunok variety in the 1st year of vegetation, 2004 (Cherkasy region, field experiment).

Inoculant strain Harvest by repetitions, | Average Addition to Addition to Nitrogen-fixing activity, nmol t)

From t/ha yield, t/ha of standard strain control |SoNa / (plant.-hour) so

Control (without 149.1 175.41162.6173.8 165.2-61 117.7-224 - inoculation)

Znyunky shtm Ge3o What What 7 li YOU SHY I 348a p

The proposed strain 197.4 205.4 |200.5)184.2) 196.9-4.5 ) 31.7 | 192 28.8 17.2 513.9-49.7 vm ovo 1

Table 3. o) c Harvest of the green mass of clover of the Darunok variety in the 2nd year of the growing season in 2005 (Cherkasy region, field experiment). schi Inoculant strain Harvest by repetitions, | Average Addition to Addition to Nitrogen-fixing activity, nmol c/ha yield, c/ha control strain-standard | SoNa / (plant-h) 1 year Control (without 213.2 273.6 338.0 1369.0) 298.5-34.7 54.6-6.3 inoculation) - Production strain 324.0 310, 0/346.81316.0) 3242-81 304.8-36.1 -1 348a

The proposed strain 390.4 372.0 |366.01376.0) 376.1-5.2 77.6) 26.0 51.9 16.0 449.6-21.6 bo o vm ov sl

Table 4.

Green mass yield and nitrogen-fixing activity of clover of the Kumach variety in the 1st growing year of 2006 (Kyiv region, field experiment). c Strain-inoculant Yield by repetitions, c |Average Addition to Addition to Nitrogen-fixing activity, nmol/ha, 1 harvest, c/ha of the standard strain control |CoNa4 / (plant-h) saw TL UZ in Control (without 154, 9 185.3 /194.91176.0) 177.8-8.5 89.1-9.3 inoculations)

Production strain) 213.0 |210.0 | 192.2 1202.0) 2044-47 595.6-57.3 348a

Proposed 247.0 1239.0 237.4 227.0) 2377-41 59.9. 33.7 33.3 16.3 822.0-49.1 strain WMO in GSTU MON POLO UNN NOV NO

Table 5.

Harvest of green mass of the Kumach variety in the 1st year of vegetation, 2006 (Kyiv region)

Inoculant strain Harvest by repetitions, c/ha, I! slope | Average yield, tiga

Control (without inoculation) 180.0 155.0 170.0 175.0 170.0-54 p I OA

Production strain zva 1960022 01720 0 202000lavono 0101

Proposed WMO strain 238.0 211.0 234.5 245.0 232.1-- A yuovov11vya1

Table 6.

Preservation of titer by strains 348a and WMO Kpigobisht Iegdytipovatt Bu. 75 bacteria in the bacterial preparation depending on the storage time (billion cells/1 g of the preparation)

Strains Duration of storage (days)

Titer of bacteria in the preparation on perlite

Kpigorisht Iedytipovagyt bu. 1.8--0.01 9.1-0.2 49.0-1.0) 72.0-2.0 ) 86.0--1.0

Transconjugant WMO 3.302 16.2--1.0152.5--1.51100.0-5.51122.5--7.5

Titer of bacteria in the preparation on vermiculite

Kpigorisht Iedytipovagyt bu. igitoiy Z4va 3.8-0.2 9.0-0.0 41.5-3.5 88.5-6.5 ) 90.0-5.0

Transconjugant WMO 4.8-0.5 13.6--41.1161.0-41.01112.5-3.5/119.5-0.5 that 2

Claims (1)

The formula of the invention Bacterial strain Kpig2obisht Ieditiposagyt Bu. it is used for the production of bacterial fertilizer for clover. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 4, 15.04.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. h p - and? ko sho - (ee) sl 60 b5