RU2720471C1 - Fodder additive for broiler chickens - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: fodder additive for broiler chickens includes a probiotic strain Bacillus cereus IP 5832 (AECC 14893), wherein it is dispensed in dosage of 4 ml/kg body weight/day at the level of microbial cells in 1 mcl 1 x 10units. Proposed fodder additive allows to increase the broiler chickens productivity by 217.9 kg (10 %) with the fodder consumption decrease from 1.63 to 1.58 kg for the body weight gain of 1 kg.EFFECT: invention relates to the field of agriculture and can be used in feeding poultry, in particular, broiler chickens.1 cl, 2 tbl, 3 dwg

Description

The invention relates to the agricultural industry and can be used in feeding agricultural poultry, in particular broiler chickens.

Known invention related to pharmaceuticals, namely to molecules of plant origin (coumarin or scopoletin) as an inhibitor of the LuxI / LuxR type quorum sensing system in bacteria [1].

The present invention examined the possibility of enhancing the anti-quorum effect of coumarin and its derivatives when combined with antibiotics from the aminoglycoside group (kanamycin, gentamicin, amikacin, etc.). Moreover, this increase is due to the synergistic effect of the antibiotic, in which the formation of regulatory molecules (AHL) is impaired.

There is a method of individual assessment of the effectiveness of eubiotics, the main active principle of which is the BACILLUS CEREUS IP 5832 strain (ATCC 14893), in relation to opportunistic microorganisms isolated from patients during the study for intestinal dysbiosis [2].

A distinctive feature of this method is that they carry out a joint incubation of the Bacillus cereus strain strain IP 5832 (ATCC 14893) with each of the opportunistic microorganism strains in physiological saline followed by Gold inoculation on nutrient agar with penicillin at a concentration of 0.01 IU / ml and without it, and when detecting a decrease in the number of opportunistic microorganisms in a medium with penicillin compared with the number of opportunistic microorganisms in a medium without penicillin, the presence of antagonistic activity of amma Bacillus cereus IP 5832 (ATCC 14893) strain against opportunistic pathogen, with eubiotic evaluated as effective against opportunistic pathogenic strain microorganism isolated from the patient in the study on the intestinal dysbiosis.

To confirm the effectiveness of the claimed invention, a study was made of the possibility of binding and enzymatic degradation of signal molecules of the quorum sensing system by probiotic microorganisms of the genus Bacillus. When performing this fragment of the study, eight strains of the genus Bacillus were tested (B. subtilis 7048, B. subtilis 534, B. clausii, B. subtilis 12B, B. subtilis 7092, B. licheniformis, B. cereus ATCC 14893, B. subtilis 5020 ), which are the active principle of veterinary and medical probiotic preparations. The anti-quorum activity of the extracellular products of microorganisms of the genus Bacillus was evaluated by residual amounts of autoinductors of the quorum sensing system (acylated homoserine of lactones; AHL), quantitatively tested in the tests for the bioluminescence induction of E. coli pAL103 and pigment biosynthesis of C. violaceum 0. In this case, the minimum anti-quorum effect was detected when testing the cell biomass of B. licheniformis and B. clausii, and the maximum - in B. cereus ATCC 14893.

The identification of genetic and molecular determinants that determine the anti-quorum activity of probiotics.

The object of the search was the aiiA gene encoding N-acyl-homoserin lactonase (EC: 3.1.1.81), which cleaves the lactone ring from the original AHL molecule. Using two pairs of modified (degenerate) primers aiiA1 and aiiA2, amplification of the target region of the genomes of eight studied microorganisms of the genus Bacillus was performed. A positive amplification result was recorded only for B. cereus ATCC 14893, the cell biomass of which shows the most pronounced ability to inactivate AHL (Fig. 2). The figure 2 shows: Row No. 1: 1 - B. subtilis 7092 (BT1 / VT2); 2 - B. clausii (aiiA1 / aiiA2); 3 - B. clausii (aiiAF / aiiAR); 4 - B. clausii (aiiA 240B1-F / aiiA 240B1-R); 5 - B. clausii (AI96-up / AI96-down); 6 - B. clausii (BT1 / BT2); 7 - B. subtilis 7048 (aiiA1 / aiiA2); 8 - B. subtilis 7048 (aiiAF / aiiAR); 9 - B. subtilis 7048 (aiiA 240B1-F / aiiA 240B1-R); 10 - B. subtilis 7048 (AI96-up / AI96-down); 11 - B. subtilis 7048, (BT1 / BT2); 12 - B. licheniformis (aiiA1 / aiiA2); 13 - B. licheniformis (aiiAF / aiiAR); 14 - B. licheniformis (aiiA 240B1-F / aiiA 240B1-R); 15 - B. licheniformis (AI96-up / AI96-down); 16 - B. licheniformis (BT1 / BT2).

Row No. 2: 1 - B. subtilis 12B (AI96-up / AI96-down); 2 - B. subtilis 12B (BT1 / BT2); 3 - B. cereus (aiiA1 / aiiA2); 4 - B. cereus (aiiAF / aiiAR); 5 - B. cereus (aiiA 240B1-F / aiiA 240B1-R); 6 - B. cereus (AI96-up / AI96-down); 7 - B. cereus (BT1 / BT2); 8 - B. subtilis 5020 (aiiA1 / aiiA2); 9 - B. subtilis 5020 (aiiAF / aiiAR); 10 - B. subtilis 5020 (aiiA 240B1-F / aiiA 240B1-R); 11 - B. subtilis 5020 (AI96-up / A196-down); 12 - B. subtilis 5020 (BT1 / BT2); 13 - B. subtilis 7092 (aiiA1 / aiiA2); 14 - B. subtilis 7092 (aiiAF / aiiAR); 15 - B. subtilis 7092 (aiiA 240B1-F / aiiA 240B1-R); 16 - B. subtilis 7092 (AI96-up / AI96-down).

Thus, the results of the study made it possible to explain the high level of anti-quorum activity of the biomass of the probiotic strain B. cereus ATCC 14893 by the presence of the extracellular enzyme N-acyl-homoserine lactonase synthesized under the control of the aiiA gene. At the same time, the result formed the basis for solving the problem associated with the transfer of genes (DNA fragments) responsible for the anti-quorum activity of probiotic strains of the genus Bacillus to a wide range of gram-positive and gram-negative hosts (Fig. 3). The figure 3 shows: 1 row - B. cereus IP5832; 2 row - cloned E. coli XL1-Blue cells; 3 row - CV 026 with GSL; left to right: GSL concentration.

Cloning of the aiiA gene from B. cereus ATCC 14893 in E. coli cells forms the basis for the effective transfer of anti-quorum activity to representatives of normobiocenosis of farm animals and humans.

During the work used the strain Bacillus cereus IP 5832 (ATCC 14893), which is part of the probiotic preparations. The primary isolation of microorganisms was carried out on LB agar (Sigma-Aldrich, USA), further cultivation was carried out in LB broth at a temperature of 37 ± 1 ° C with dynamic monitoring of growth at 545 nm (OD545). After 72 hours, the bacterial biomass was separated by centrifugation for 10 minutes at 12,000 g (MiniSpin, Eppendorf, Germany), and the resulting supernatants were sterilized through a sterile syringe filter head, CA (cellulose acetate), (Membrane Solutions, USA) with a pore diameter of 0.22 microns.

In the future, in order to test the drug with the studied strain, an experiment was conducted on broilers of the cross Arbor Aykres in the vivarium of the Federal Research Center for Biological Systems and Agricultural Technologies of the Russian Academy of Sciences. For the experiment, 18 heads of 9-day-old broiler chickens were selected, which were divided into 2 groups (n = 9) with an average live weight of 214 by the analogue method, both by age and weight. During the experiment, the entire experimental bird was in identical conditions of detention. The microclimate in the room met the requirements of VNITIP.

Feeding and watering the birds was carried out by the group method. The main diet (RR) for the experimental bird during the research was compiled taking into account the recommendations of VNITIP [3]. Experimental poultry was fed 2 times a day; daily consumption was taken into account. Watering was carried out ad libitum.

The control group - OR; experimental - OR + strain of probiotic preparations Bacillus cereus IP 5832 at a dosage of 4 ml / kg g.m. / day (with a level of microbial cells in 1 μl - 1 * 10 ⁹ units).

In the course of research, an advantage was found in the live weight of the experimental broilers over the control (Table 1). So in the third week of the experiment, the experimental group was characterized by a predominance of live weight by 34.37 g (4.86%) in comparison with the control, by 129.08 g (P≤0.05) or 7.3% by the fourth week and the fifth week at 217.96 g (P≤0.05) or 9.13%, respectively.

A similar situation was observed for the growth of live weight (table. 2). Broilers from the experimental group exceeded the analogues from the control in absolute growth by 217.96 g (10%), daily average by 6.23 g (10.03%).

Over the entire period of the experiment, the broilers of the experimental group ate 0.23 g or 6.55% more feed, but their feed consumption per 1 kg of live weight was less than 0.04 g (2.46%) compared with the control (table . 3).

Thus, the use of a feed additive consisting of a strain of Bacillus cereus IP 5832 helps to increase the productivity of the bird and its resistance.

Sources of information

1. Patent for invention RU No. 2616237 Use of coumarin and its derivatives as inhibitors of the LuxI / LuxR type quorum sensing system in bacteria / D.G. Deryabin, A.A. Tolmacheva, K.S. Inchagova; publ. 04/13/2017, Bull. Number 11

2. Patent for invention RU No. 2399658 A method for individual evaluation of the effectiveness of eubiotics, the main active principle of which is the strain BACILLUS CEREUS IP 5832 (ATCC 14893), in relation to opportunistic microorganisms isolated from patients in the study for intestinal dysbiosis / E.A. Orishak, L.Yu. Nilova, A.G. Fighters; publ. 09/20/2010 Bull. Number 26

3. Recommendations for feeding poultry / VNITIP. Under the total. Ed. IN AND. Fisinina. - Sergiev Posad, 2000 .-- 68 p.

Claims (1)

A feed additive for broiler chickens to increase productivity, containing a probiotic strain of Bacillus, characterized in that it contains a probiotic strain of Bacillus cereus IP 5832 (ATCC 14893), while it is evaporated in a dosage of 4 ml / kg g / m at a level microbial cells in 1 μl - 1x10 ⁹ units.

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