RU2189762C2 - Biostimulating feeding additive - Google Patents

Abstract

FIELD: biotechnology; applicable in animal and poultry breeding for increasing productivity. SUBSTANCE: feeding additive contains partially hydrolyzed yeast Saccharomyces cerevisiae and zeolite. Biomass of yeast is a paste with nucleinic acids extracted from it at a maximum. The paste is waste of production of medicinal preparations on base of nucleinic acids. Proposed feeding additive allows to avoid effects connected with disturbances of animal's nuclein metabolism, and it is convenient for application in poultry breeding. EFFECT: increased productivity and resistance of poultry. 2 cl, 5 tbl, 4 ex

Description

 The invention relates to biotechnology and for the production of biologically active feed additives, which can be used in animal husbandry and poultry farming to increase productivity.

 It is known that the use of yeast in intensive fattening livestock and poultry farming is promising. A lot of experience has been accumulated in this direction, characterizing fodder yeast as a high-value source of protein, carbohydrates, fats and vitamins [1, 2].

 In agricultural practice, fodder yeast (BVK - paprine, aprin, haprin) and hydrolysis yeast, as well as their derivatives (autolysates, etc.) are used as feed additives [1, 2].

 The closest analogue of the invention are fodder yeast, produced in the form of powder and granules for use in animal husbandry as a feed additive [3, prototype].

 However, when using such feeds, serious complications arise associated with the presence of nucleoproteins in yeast (or yeast products). It has been established that of the total amount of nitrogen in yeast, up to 20% is non-protein nitrogen, containing 8-13% purine, about 4% pyrimidine bases and 3% polysaccharides. The high content of nucleic acids in the product causes a violation of purine metabolism and is manifested in mammals in the appearance of urolithiasis of the kidneys, joints (gout). In birds - in the development of violations of water-salt metabolism, the occurrence of candidiasis, in fish - a violation of the liver. This fact significantly limits the use of fodder yeast [4].

 It is known to use zeolites in animal husbandry and veterinary medicine as a prophylactic and therapeutic agent, dietary feed additive, bedding for animals and poultry, etc. [5, 6, 7]. Natural zeolites are minerals of volcanic origin - zeolite-containing tuffs. They have unique sorption, ion exchange, molecular sieve, catalytic properties that determine their positive effect on the physiological state of the human body, animals and birds. Due to their physicochemical properties, they stabilize intestinal physiology, normalize the internal environment, which leads to improved feed conversion. However, zeolites themselves do not replace essential nutrients.

 An object of the invention is the creation of high-calorie biologically active additives in the form of a paste, powder or granules for animals or birds based on feed yeast with a reduced content of nucleic acids and a natural filler, which contributes to an increase in body resistance.

 The problem is solved by using denucleotized yeast as a waste product for the production of drugs based on nucleic acids obtained by enzymatic hydrolysis of the yeast Saccharomyces cerevisiae [8, 9].

 The waste from this production is a partially hydrolyzed yeast biomass in the form of a paste with extracted nucleic acids (denucleotized yeast product - DNDP), which avoids the consequences associated with impaired nucleic acid metabolism in animals.

 DNDP is a waste of the first stage of production of the substance for the antiviral drug "Ridostin" [ODA 103.21-96 "Production of Na-salt to RNA (substance)"].

To obtain DNDP, the initial biomass of killer yeast Saccharomyces cerevisiae (8 kg) is crushed and destroyed by the yeast cell walls by enzymatic hydrolyzate in 16 l of buffer solution (0.1 M Na ₂ SO ₃ ; 0.005 M trilon 5; 0.04 M KH ₂ PO ₄ ; 0.4 M KC1; pH 7.0) containing 200 ml of Arthrobacter luteus culture fluid with 32,000 units of yeast activity for 1 h at 30 ^o C. For a more complete destruction of the cell walls, the resulting yeast biomass suspension is treated in a FUT-1 disintegrator then extraction of dsRNA (the basis of the drug Ridostin) is carried out above indicated buffer solution when heated to 75 ^o C for 10 min and clarified by centrifugation. The sediment of spent cells is unloaded and a sample is taken for the presence of a dsRNA zone (electrophoretically) - it is absent, i.e. the yeast product has been denucleotized; dsRNA quantitatively passed into a solution, which is transferred to the next stages of the production of the drug Ridostin, and the precipitate is a DND.

 The dry substance of the obtained product contains: protein (determined by the Kjeldahl method) - from 20.41% to 25.5%; fat (determined by extraction in an organic solvent) - from 6.8% to 8.1%; ash (determined by dry ashing) - from 47.9% to 55.2%; fiber (the method of Genneberg and Shtoman in the modification) - from 14.1% to 26.5%.

 The amino acid composition of DNDP was also determined, indicating a high biological value of the product due to the presence of essential and non-essential amino acids. The amino acid content in 5 batches of DNDP is given in table. 5.

 The table shows that the composition of the DNDP proteins contains rather large amounts of essential amino acids. Therefore, DNDP can be used as a valuable feed additive, since it has significant amounts of proteins and lipids, which are the main suppliers of energy.

 Physicochemical and biological analysis of 5 batches of DNDP showed that the resulting product contains an average of 2.78% protein, 18.8% sugar and only 0.676% nucleic acids (RNA), which is 10-15 lower than in the original yeast biomass . The content of DNDP components is calculated from the weight of the dry preparation.

 DNDP is a paste with a pH of 6.64, a moisture mass fraction of 76.36% and 9.42% ash (characterized after pasting ashing and containing minerals). The indicators characterizing the composition of the DNDP are presented in table. 1.

 The use of DNDP as a feed additive in the daily diet of outbred mice with prolonged 12-day feeding in the amount of 1 g per head showed its good tolerance and faster growth in body weight of experimental animals in the first 2-7 days by 5-7% compared with the control who received the usual food (table. 2).

 When introducing into the main diet piglets suckers of breed SM-1 from the seven-day age of DNDP at the rate of 0.3 g per 1 kg of live weight per day for 53 days, it was found that the piglets treated with the supplement had a large live weight at 21 days of age by 8.7%, and in the 60-day - by 8.25% than the control animals (see table. 3).

Preliminary experiments on the use of DNDP, carried out on chickens, showed the difficulty of introducing a paste in the diet of a bird. Attempts to dry the DNDP biomass at 100-150 ^o C led to a large sintering of the samples and the need for their further grinding. This circumstance complicates the technology of preparation and increases the cost of the final product.

The addition of natural zeolites to the biomass of DNDP in a ratio of 1: (0.5-1.5) allows you to prepare the final product with good dispersibility and therefore convenient for use in poultry farming, designated as biostimulating feed additive (BSCD). In addition, due to their physicochemical properties, zeolites stabilize intestinal physiology, normalize the internal environment, which leads to improved feed conversion. The final product BSCD receive at (70 ± 5) ^o With in the form of powder and granules.

 The use of BSKD as a feed additive in the daily diet of broiler chickens for 52 days in the amount of 3% of the main diet showed that the live weight of chickens by the end of the experiment increased by 6.6% compared with the control, and the safety of the bird increased by 10, 2% (see table. 4). For comparison: the introduction into the diet of chickens of pasty DNDP gave an increase in live weight by only 2.6%, and safety by 1.9%; when using bifidobacterin, these indicators were 1.5% and 3.7%, respectively.

 Thus, a new highly effective feed additive based on partially hydrolyzed Sac-charomyces cerevisiae yeast has been developed, from which nucleic acids (DNDPs) have been extracted to the maximum, which avoids the consequences associated with impaired nucleic acid metabolism in animals. In addition, the introduction of zeolite in DNDP allows you to get a product, biostimulating feed additive (BSCD), convenient for use in poultry farming, beneficial effect on the productivity and resistance of the bird.

 The invention is illustrated by the following examples.

 Example 1. Tolerance when feeding DNDP to animals was studied on white outbred mice. 40 animals were selected for the experiment (20 animals each in the experimental and control groups). Before the experiment, during the feeding process and during recovery (without a feed supplement), the mass of animals was recorded. The weight gain of the animals of the experimental group was calculated in relation to the control (in%). The results are shown in table. 2.

 Example 2. To study the effectiveness of the use of DNDP in feeding piglets-suckers of breed SM-1, an experiment was set. According to the principle of analogues, 2 groups of piglets of 50 animals each were formed. Control animals from 7-10 days of age received top dressing - the main diet that met all the feeding standards developed at the All-Russian Institute of Animal Husbandry (VIZh). Pigs of the experimental group in addition to the main diet from 7 days of age received DNDP at the rate of 0.3 g per 1 kg of live weight per day. Before feeding, the additive was mixed with the main feed. The supplement was fed to piglets until weaned at 60 days of age. The results of the experiment are given in table. 3. As a result of the experiment, it was found that feeding the pigs with DNDP contributed to an increase in their live weight gain compared with the control group. Based on the data in the table, it can be concluded that the piglets treated with the supplement had a large live weight of 8.7% at the 21-day age and 8.25% at the 60-day age than the control animals. There was no death in both the experimental and control groups.

Example 3. A feed additive was prepared by mixing DNDP with natural zeolite in a ratio of 1: (0.5-1.5) and drying it at (70 ± 5) ^o С. Since the DNDP samples have different moisture contents, the preparation of BSCD is different the amount of zeolite relative to the mass unit of DNDP. The product was obtained in the form of powder or granules.

 Example 4. Experiments to assess the impact on the stimulation of productivity and resistance of birds introducing into the diet of DNDP, BSCD in comparison with bifidobacterin and the control groups were carried out on broiler chickens. In the table. 4 shows data on the comparative determination of the effect on daily broiler chickens for 52 days of the main diet (control group), the main diet + 3% of this diet DNDP (1st experimental group), the main diet + 3% of this diet BSCD (2nd experimental group) and the main diet + bifidobacterin (in accordance with the instructions for use). The size of each group amounted to 108 goals.

 As a result of the use of BSKD, the live weight of broiler chickens by the end of the experiment increased by 6.6% compared with the control, and the safety of the bird increased by 10.2%. DNDP gave an increase in live weight by 2.6%, and safety, respectively, by 1.9%. When using bifidobacterin, the weight gain of broiler chickens decreased by 1.5%, and the safety increased by 3.7%.

 A biostimulating feed additive is an integral element in the development of non-waste technology for the production of medical and veterinary preparations based on Saccharomyces cerevisiae yeast. Based on an environmentally friendly bio-stimulating supplement, a number of specialized feed additives can also be developed.

Sources of information
1. Petrukhin N. V. Feed and feed additives. Ch. 6. Feed microbiological synthesis. Handbook / M .: Rosagropromizdat, 1989 .-- S. 177-198.

 2. Talanov G.A., Khmelevsky B.N. Sanitation of feeds: Handbook / M .: Agropromizdat, 1991. - S. 200-204.

 3. GOST 20083-74 Fodder yeast. Technical conditions ICS 2-93.

 4. Pokrovsky A. A. Prospects for the use of proteins of unicellular organisms / In the book. Biomedical studies of hydrocarbon yeast (1964-1970) // M .: Nauka, 1972. - P. 9-58.

 5. Manual on the use of zeolites. Approved by the GUV Ministry of Agriculture of the Russian Federation. Per. 07/10/19. - OVFP from 04.08.92.

 6. Shadrin A.M. Natural zeolites of Siberia in animal husbandry, veterinary medicine and environmental protection. - Novosibirsk, 1998, - 116 p.

 7. Guidelines for the study of natural zeolites in the feeding of poultry / Razrab. Sotr .: VNITIP - V.N. Ageev and others; IEVSiDV WITH VASKHNIL - A.M. Shadrin; SibNIPTIZH WITH THE EASTER - K.Ya. Motovilov; UNIIP - S. A. Vodolazhchenko; VGNKI - B.A. Timofeev, R.G. Bostashvili. Approved, approved and recommended for publication by the Poultry Section of the Animal Husbandry Division of the VASKhNIL on June 20, 1985, protocol 2 / СО VASKHNIL. Novosibirsk, 1985 .-- 15 p.

 8. Copyright certificate of the USSR 1602018, cl. C 07 H 21/02, 1990, BI 34.

 9. RF patent 2083221, cl. A 61 K 38/20, 1997, BI 19.

Claims (2)

 1. Biostimulating feed additive, comprising a yeast product, characterized in that as a yeast product it contains a denucleotized partially hydrolyzed yeast product Saccharomyces cerevisiae.  2. Biostimulating feed additive according to claim 1, characterized in that it additionally contains a natural mineral filler zeolite in a ratio of 1: (0.5-1.5).

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