Information is presented on the study of the probiotic properties of fermented milk products of heteroenzymatic fermentation, namely their antimutagenic, hypocholesterolemic, antioxidant activity, and the ability to suppress pathogenic and conditionally pathogenic bacteria. Data on the effective use of koumiss, kefir, chegen, kurunga in the treatment of acute intestinal infections, their ability to limit the intensity of peroxide metabolism are presented. Thus, their bactericidal action against tubercle Bacillus, Escherichia coli, Bacillus fastidiosus, Pseudomonas aeruginosa, Leuconostoc mesenteroides, Candida albicans, Staphylococcus aureus, etc. was established.the data of clinical trials proving their influence on the normalization of human lipid metabolism are Presented. Antioxidant effect is associated with the action of vitamins C, E, polyunsaturated fatty acids, etc. produced by the microflora of dairy products. Many researchers indicate that multicomponent probiotics have a high adaptive potential in the conditions of the gastrointestinal tract. Thus, artificially created communities of lactobacilli isolated from spontaneously formed microflora of "artisanal" fermented milk products exhibit antimirobial action against pathogenic microflora.

probiotic, probiotics, koumiss, kurunga, kefir, fermented milk products of heterofermentation.

1. Bukachakova L.Ch., Arsenyeva T.P. The study of physico-chemical and microbiological indicators of the sourdough of the Altai fermented milk drink Chegen. Processes and Food Production Equipment. 2013. no. 3. pp. 9. (in Russian).

2. Gracheva N.M., Avakov A.A. et al. Modern treatment of diarrhea of various origins using probiotic drugs. Infectious diseases. 2007. no. 5 (1). pp. 47–53. (in Russian).

3. Ermolaeva A.N., Algozhina U.Zh., Ten O.A., Balpanov D.S. The study of cultures of lactic acid microorganisms isolated from koumiss of various regions of Northern Kazakhstan. Biotechnology, Theory and Practice. 2012. no. 3. pp. 87–90. (in Russian).

4. Kolmakova T.S., Belik S.N. Characterization of kefir as a valuable probiotic product and its biological properties. Medical Bulletin of the South of Russia. 2014. no. 3. pp. 35–42. (in Russian).

5. Krieger O.V. Actual issues of creating functional drinks with antibiotic properties. Actual issues of the beverage industry. 2017. no. 1. pp. 62–64. (in Russian).

6. Kudayarova R.R., Gilmutdinova L.T., Kudayarova R.R. Reconstructive correction of lipid metabolism in individuals at risk of developing atherosclerosis using koumiss. Medical Bulletin of Bashkortostan. 2010. no. 10. pp. 102–105. (in Russian).

7. Mazankova L.N., Lykova E.A. Probiotics: characterization of drugs and choice in pediatric practice. Infection of children. 2004. no. 1. pp. 18–24. (in Russian).

8. Mayagsky A.N. Dysbacteriosis: illusions and reality. Pediatrics. 2000. no. 4. pp. 80–88. (in Russian).

9. Novik G.I. et al. Biological activity of probiotic microorganisms. Applied Biochemistry and Microbiology. 2006. vol. 42. no. 2. pp. 187–194. (in Russian).

10. Okhlopkova E.D., Olesova L.D., Konstantinova L.I., Mironova G.E. The influence of koumiss on lipid peroxidation in athletes of Yakutia at the recovery stage. Journal of Western Siberia. 2012. no. 1. pp. 14–15. (in Russian).

11. Pogorelsky I.P., Chicherin I.Yu., Lundovsky I.A., Gavrilov K.E. et al. Biological properties of bacteroids isolated from biotopes of people with the second blood group. Infectious diseases. 2013. vol. 11. no. 2. pp. 45–51. (in Russian).

12. Reshetnik L.A., Bulgadaeva R.V., Ptichkina O.I., Leontieva I.N. Microbiological and clinical characteristics of kurungs. Siberian Medical Journal. 2007. vol. 69. no. 2. pp. 88–91. (in Russian).

13. Gracheva N.M., Avakov A.A., Partin O.S., Shcherbakov I.T. and other Modern treatment of diarrhea of various origins using probiotic drugs. Infectious diseases. 2007. vol. 5. no. 1. pp. 47–53. (in Russian).

14. Stoyanova L.G. Isolation and identification of lactic bacteria Lactococcus lactis subsp. Lactis with antimicrobial action. Bulletin of the Timiryazev Agricultural Academy. 2017. no. 5. pp. 41–61. (in Russian).

15. Stoyanova L.G. Lactic acid bacteria: workshop on microbiology. Moscow, Akademiya, 2005. 486 p. (in Russian).

16. Stoyanova L.G., Semenova E.V. The fusion of protoplasts of lactic acid bacteria Lactococcus lactis. Moscow, MAKS PRESS, 2015. 68 p. (in Russian).

17. TR TS 033/2013 Technical regulation of the Customs Union “On the safety of milk and dairy products”. (in Russian).

18. Usenko D.V., Gorelova E.A. The effectiveness of modern probiotics in the treatment of acute intestinal infections in children with concomitant atopic dermatitis. Infectious diseases. 2013. vol. 11. no. 3. pp. 27–34. (in Russian).

19. Khamnaeva N.I., Olmoeva V.D., Namsaraeva Z.M. The study of the antagonistic activity of the combined inoculum based on the microbial association of kefir fungi. Bulletin of the VSGUT. 2016. no. 4 (61). pp. 84–88. (in Russian).

20. Shablin P.A. Effective microorganisms - reality and prospects. EM technology – the hopes of the planet: theses of the 1st All-Russian. scientific and practical. conf. Voronezh. (in Russian).

21. Shenderov B.A. Probiotics and functional nutrition. Moscow, Grant, 2001. 288 p. (in Russian).

22. Shenderov B.A. Functional nutrition and its role. Moscow, Deli Print, 2008. 320 p. (in Russian).

23. Adiloglu A.K. et al. The effect of kefir consumption on human immune system: a cytokine study. Microbiyol Bul. 2013. vol. 47. no. 2. рp. 273–281.

24. Bernhom N., Licht T.R., Brogren C.H. et al. Effects of Lactococcus lactis on Composition of Intestinal Microbiota: Role of Nisin. Applied and Environmental Microbiology. 2006. vol. 72. рp.1239–1244.

25. Cagno R. et al. Assessing the proteolytic and lipolytic activities of single strains of mesophUic lacto bacilli as adjunct cultures usinga Caciotta cheese model system. Int. Dairy J. 2006. vol. 16. pp. 119–130.

26. Holzapfel W.H., Shulinger U. Introduction to pre – and probiotics. Food Research International. 2002. vol. 35. pp. 125–129.

27. Kanbak G. et al. Effect of kefir and lowdose aspirin on arterial blood pressure measurements and renal apoptosis in unhypertensive rats with 4 weeks salt diet. Clin Exp Hypertens. 2013. vol. 30. рp. 345–349.

28. Marteau P.R. et al. Protection from gastrointestinal diseases with the use of probiotics. Am J Clin Nutr. 2001. vol. 73. no. 2. рp. 430.

29. Rodr?guez-Figueroa J.C. et al. Hypotensive and heart rate-lowering effects in rats receiving milk fermented by specific Lactococcus lactis strains. Br. J. Nutr. 2013. vol. 109. no. 5. рp. 827–833.

30. Stark P.L., Lee A. The microbial ecology of the large bowel of breast-fed and formula-fed infants during the first year of life. J. Med. Microbial. 1982. no. 2. pp. 189–203.

31. Uskova D.G., Popova N.V. The study of the storage capacity of yogurts based on sonochemically micronized fucoidan. Bulletin of the South Ural State University. Series: Food and Biotechnologies. 2019. vol. 7. no. 2. pp. 24–34. doi: 10.14529/food190203 (in Russian).