The influence of brood chickens by-products processing with probiotic culture starter on change of their functional and technological parameters.

By-products are the potential source of animal protein obtained from brood chickens and egg-laying hens. Certain by-products like gizzards and combs are quite tough and possess low nutritional and biological value due to their high content of connective tissue. Biotechnological processing improves the quality parameters of collagen-containing by-products. In this article a probiotic starter culture of propionic acid bacteria, which have high proteolytic activity, was used to treat the gizzards and combs of brood chickens. Before processing of by-products with starter culture, physical and chemical parameters and the yield of by-products in relation to poultry live weight were analyzed and recorded. 5%, 10% and 15% starter culture were added to the tested samples of chopped by-products, the samples were kept at a temperature of 30 °C, and every 4 hours the following functional and technological parameters were monitored: moisture binding capacity, water holding capacity (MBC and WHC) and yield of the product after heat treatment. The results proved that increase of starter culture amount and longer exposure of by-products to hydrolysis led to decrease of functional and technological parameters values, but for the combs those parameters remained at a sufficiently high level compared to the gizzards, as the gizzards were exposed to more intense hydrolysis than combs. The decrease in the pH value correlated with the dynamics of MBC and WHC changes; and dynamics of the product yield after the heat treatment. Also the stained histological preparations were studied in order to assess the influence of biotechnological processing on by-products microstructure, where significant differences were found in the morphological structure of muscle and collagen fibers of hydrolysates of combs and gizzards exposed to action of bacterial concentrate. The results of rheological studies showed that hydrolyzed chicken combs differed from gizzards; the combs were denser and featured more elastic structure due to a lower degree of hydrolysis by bacterial enzymes. In general, the properties of collagen-containing by-products (muscular gizzards and combs) change significantly after being exposed to enzymes of propionic acid bacteria.

Effect of Microbial Enzymes on the Changes in the Composition and Microstructure of Hydrolysates from Poultry By-Products

Poultry by-products are promising for the production of protein hydrolysates by enzymatic hydrolysis. The aim of the study is to research the effect of bacterial concentrates on the changes in the amino acid composition and microstructure of poultry by-products during fermentation. Hydrolysis of the gizzards and combs was carried out with a liquid concentrate of bifidobacteria and propionic acid bacteria. As a result of microstructural study of fermented by-products, a decrease in the perception of histological dyes, poor visualization of the cell elements and blurring of the connective tissue matrix were established. During morphometric analyses, we found a reduction in the specific area of connective tissue, the diameter of collagen fibers and the thickness of muscle fibers. A significant effect of the fermentation on the particle size distribution was noted; samples hydrolyzed by microbial enzymes were characterized by a high uniformity of particle sizes and a large number of small particles. Our research revealed an increase in the concentration of free amino acids in the hydrolysates during the fermentation period. The results of biochemical and microscopic analysis confirm the good hydrolysability of hen combs and gizzards under the action of microbial enzymes.

Development of probiotic bacterial concentrate technology and practical aspects of its use

В статье приводятся результаты разработки технологии получения биоконцентрата на основе многоштаммового консорциума молочнокислых и пропионовокислых бактерий, который может использоваться для силосования зеленых кормов. Установлены параметры ферментации, стадии концентрирования, дана качественная характеристика готового продукта. The article presents the results of the development of the technology of producing bioconcentrate on the basis of multistrain consortium of lactic acid and propionic acid bacteria which can be used for ensilaging green forages. The fermentation parameters, concentration stages, and qualitative characteristics of the finished product are established.

Use of Propionibacterium freudenreichii T82 Strain for Effective Biosynthesis of Propionic Acid and Trehalose in a Medium with Apple Pomace Extract and Potato Wastewater

Propionic acid bacteria are the source of many metabolites, e.g., propionic acid and trehalose. Compared to microbiological synthesis, the production of these metabolites by petrochemical means or enzymatic conversion is more profitable. The components of microbiological media account for a large part of the costs associated with propionic fermentation, due to the high nutritional requirements of Propionibacterium. This problem can be overcome by formulating a medium based on the by-products of technological processes, which can act as nutritional sources and at the same time replace expensive laboratory preparations (e.g., peptone and yeast extract). The metabolic activity of P. freudenreichii was investigated in two different breeding environments: in a medium containing peptone, yeast extract, and biotin, and in a waste-based medium consisting of only apple pomace and potato wastewater. The highest production of propionic acid amounting to 14.54 g/L was obtained in the medium containing apple pomace and pure laboratory supplements with a yield of 0.44 g/g. Importantly, the acid production parameters in the waste medium reached almost the same level (12.71 g/L, 0.42 g/g) as the medium containing pure supplements. Acetic acid synthesis was more efficient in the waste medium; it was also characterized by a higher level of accumulated trehalose (59.8 mg/g d.s.). Thus, the obtained results show that P. freudenreichii bacteria exhibited relatively high metabolic activity in an environment with apple pomace used as a carbon source and potato wastewater used as a nitrogen source. This method of propioniate production could be cheaper and more sustainable than the chemical manner.

New Multistrain Bacterial Consortium for Feed Probiotics

Introduction. Multistrain probiotics often include biocompatible strains, which leads to suppression of microbial viability and, as a result, decreases their efficacy. Therefore, new probiotics should be based on well-matched strains with no antagonism. Study objects and methods. The research featured strains of lactic and propionic acid bacteria from the VNIIPBT collection. The method of direct co-cultivation on dense medium (drop technique) was used to assess the biocompatibility of lactic acid bacteria. Antagonism was detected visually based on signs of suppression after 24 and 48 h after the onset of incubation. Antagonism of the consortia was assessed by the Romanovich method. Results and discussion. The screening resulted in seven promising strains with the specific growth rate of 0.32–0.84 h–1 and the maximum population density ≤ 2.2 billion CFU/cm3. A set of experiments on the strain adaptation mechanisms revealed combinations of strains with the lowest antagonism and competition for the substrate. The research resulted in a four-component consortium of Lactobacillus plantarum 314/8, Lactobacillus helveticus R0052/6, Enterococcus faecium B-2240D, and Propionibacterium freudenreichii subsp. shermanii 103/27. The optimal ratio was the one where the cultures were present in equal proportions. The study also described the biosynthetic properties of the consortium and the ratio of the strains in its composition. The consortium demonstrated a balanced growth, good strain compatibility, and absence of antagonism. The cultivation mode was tested anaerobically on milk whey at 37°C for 24 h (strain ratio = 1:1:1:1). Conclusion. The new consortium proved suitable for industrial production of feed probiotics.

RAT INTESTINAL MICROFLORA IN EXPERIMENTAL ANTIBIOTIC-ASSOCIATED DYSBIOSIS AND THE POSSIBILITY OF ITS CORRECTION WITH PREPARATION BASED ON LACTIC AND PROPIONIC ACID BACTERIA

The composition of the intestinal microflora of rats with experimental antibiotic-associated dysbiosis and after its correction with a biological product based on lactic acid and propionic acid microorganisms was studied. The results obtained indicate the normalization of the number of microorganisms when using the suspension form of the drug and make it possible to recommend its use in clinical practice for the correction of intestinal microflora disorders in animals.

Influence of silage prepared with biological preservatives on productivity of cows

Feed is one of the most important factors in increasing the productivity of animals. Providing livestock with high-quality bulky feed is the main task of feed production. One of the most important problems of modern agricultural production in the Udmurt Republic remains the increase in feed production, improvement of their quality and energy saturation. The purpose of the research was to increase the efficiency of milk production by using alfalfa and corn silage prepared with various biological preservatives in the rations of cows. Scientific and economic experiment has been carried out in JSC “Voskhod” in the Sharkansky district in the Udmurt Republic, a breeding farm of Kholmogorskaya breed of cattle. An important scientific and practical task to increase the productivity and improve the reproductive traits of cows due to silage from alfalfa and corn harvested using biological preservatives Laxil, Bioamide-3, Optima-Bio, containing various strains of lactic acid and propionic acid bacteria has been considered in the paper. Research has been conducted on the comparative study of the effectiveness of biological preservatives on the preservation of feed nutrients under the conditions of the Udmurt Republic. Their effect on milk productivity, quality and technological properties of milk has been studied. It has been found as a result of the conducted studies that the use of biological preservatives Laxil, Bioamide-3, Optima-Bio when silage making had a positive effect on the increase in milk productivity of cows during the increasing the milk yield period and for 305 days of lactation. Thus, the use of silage prepared with preservatives in rations increases the milk yield for 305 days of lactation by 5,6–7,6 %. When feeding silage with preservatives the profitability of milk production has been increased. The most effective preservative was Bioamide-3.

Functional Fermented Beverage Prepared from Germinated White Kidney Beans (Phaseolus vulgaris L.)

The current demand for plant-based food indicates that the food market is providing alternatives for products that are currently commercially available. This chapter discusses the possible use of germinated bean seeds as a raw material in the production of substitutes for dairy products, including fermented ones. Beans are a valuable source of easily digestible protein, carbohydrates, minerals, and various vitamins (e.g., B vitamin group). They also contain significant amounts of fiber which affects the proper functioning of the digestive system and antioxidant compounds. The fat content is low and is estimated to be around only 1–2%. However, it is mainly (about 70%) constituted by unsaturated fatty acids, including the polyunsaturated ones such as linoleic acid or linolenic acid, which are desirable in the human diet for the prevention of cardiovascular diseases or cancer. Biological processes such as germination or fermentation may improve the nutritional value of bean seeds (by increasing the content, digestibility, and bioavailability of some nutrients and by eliminating undesirable components) and deliver live cells of prohealth bacteria (lactic acid bacteria, propionic acid bacteria, or bifidobacteria).