THE BIOMASS OF Streptococcus thermophilus AND Bifidobacterium longum IN DAIRY MEDIUM WITH BEE POLLEN N. N. Lomova, O. O. Snezhko, S. A. Narizhnyy

Details: Hits: 1418

ISSN 2410-776X (Online),
ISSN 2410-7751 (Print)

1 2015

Biotechnologia Acta, V. 8, No 1, 2015
https://doi.org/10.15407/biotech8.01.071
P. 71-75, Bibliography 15, Ukrainian
Universal Decimal classification: 637.146.34:638.167

THE BIOMASS OF Streptococcus thermophilus
AND Bifidobacterium longum IN DAIRY MEDIUM WITH BEE POLLEN

N. N. Lomova ¹, O. O. Snezhko ², S. A. Narizhnyy¹

¹ Bila Tserkva National Agrarian University, Ukrainian
² Nacionalnyj universitet bioresursov i prirodopolzovanija Ukrainy, Kyiv

The present study was carried out to investigate the effect of adding different concentrations of bee pollen on the biomass of Streprococus thermophilus and B. longum in the dairy environment. Sampling, preparation and conducting of tests were performed by standard methods of analysis. The counts of Str. thermophilus and B. longum were carried out by using M17 and MRS agar media. The phases growth were determined graphically.

Established, that bee pollen stimulates the accumulation of biomass Str. thermophilus on 9–15%, and B. longum – on 2,3–12,7% in an amount of up to 0.2–1.0%. Bee pollen reduces the duration of the lag phase for both types of microorganisms almost to its complete disappearance (1.0%). Pollen (1%) prolong stationary phase for streptococci and bifidobacteria to 30% and 20%, respectively. And also, will provide the biomass in the amount of 6 ± 0,1×109 CFU/cm3 (Str. Thermophilus) and 2,8 ± 0,1×108 CFU/cm3 (B. longum).

Str. thermophilus and B. longum readily assimilate essential micronutrients pollen. Components of bee pollen can act growth stimulants (bifidogenic factor) for the studied strains. The data obtained will form the basis of biotechnology dairy drink with bee products.

Key words: biomass, bee pollen, streptococci, bifidobacteria.

References

1. Gubyna Y. V. The fibers «Cytry-Faj» in the products functional purposes. Molochnaya promyshlennost. 2014, V. 2, P. 74. (In Russian).

2. Gavrilova N. B. Biotechnology of combined dairy products. Omsk: Variant-Sibir. 2004. 224 p. (In Russian).

3. Ejtahed H. S. Mohtadi-Nia J., Homayouni-Rad A., Niafar M., Asghari-Jafarabadi M., Mofid V. Probiotic yogurt improves antioxidant status in type 2 diabetic patients. Nutrition. 2012, V. 28, P. 539–543.
http://dx.doi.org/10.1016/j.nut.2011.08.013

4. Sheu B. S., Cheng H. C., Kao A. W., Wang S. T., Yang Y. J., Yang H. B., Wu J. J. Pretreatment with Lactobacillus and Bifidobacterium containing yogurt can improve the efficacy of quadruple therapy in eradicating residual Helicobacter pylori infection after failed triple therapy. Am. J. Clin. Nutr. 2006, 83 (4), 864–869.

5. Torgalo Je. O. Alanine aminotransferase activity in rets of different and in conditions of periodical injection of multiprobiotic «Symbiter acidophilic». Svit medytsyny ta biolohii. 2012, V. 2, P. 163–166. (In Ukrainian).

6. Pylypenko S. V., Korotkyy O. G., Karpovych T. P., Ostapchenko L. I. Cytomorphological state of lymphoid organs of rats with long-term gastric hypoacidity and at introduction of multiprobiotic “Apibact”. Problemy ekolohichnoi ta medytsynskoi henetyky i klinichnoi immunolohii. 2014, V. 3, P. 36–44. (In Ukrainian).

7. Sanders M. E., Tompkins T., Heimbach J. T., Kolida S. Weight of evidence needed to substantiatea health effect for probiotics and prebiotics. Eur. J. Nutr. 2005, V. 44, P. 303–310.
http://dx.doi.org/10.1007/s00394-004-0527-6

8. Heller K. J. Probiotic bacteria in fermented foods: product characteristics and starter organisms. Am. J. Clin. Nutr. 2001, V. 73, 374S–379S.

9. Semjonova N. A. The research of technological features production of fermented milk drinks with natural bee honey (Ph. D. dissertation). Kemerovo: 2008, 140 s. (In Russian).

10. Lu?an M., Sla?anac V., Hardi J., Mastanjevi? K., Babi?J., Krstanovi?V., Juki? M. Inhibitory effect of honey-sweetened goat milk. Mljekarstvo. 2009, 59 (2), 96–106.

11. Chick H., Shin H. S., Ustunol Z. Growth and acid production by lactic acid bacteria and bifidobacteria grown in skim milk containing honey. J. Food Sci. 2001, V. 66, P. 478–481
http://dx.doi.org/10.1111/j.1365-2621.2001.tb16134.x

12. Metry W. A., Owayss A. A. Influence of incorporating honey and royal jelly on the quality of yoghurt during storage. Egypt. J. Food Sci. 2009, V. 37, P. 115–131.

13. Lomova N. M., Narizhnyy S., Snizhko O. Influence of incorporating honey, royal jelly and pollen on the biotechnological processes of dairy drink. Vostochno-evropeiskii zhurnal peredovykh tehnologii. 2014, 2/12 (68), 62–65. (In Ukrainian).

14. Lomova N., Narizhnyy S., Snezhko O. Yoghurt enrichment with natural bee farming products. Ukrainian Food J. 2014, 3 (3), 405–411.

15. Pirt S. J., Walach M. Biomass yields of Chlorella from iron (Yx/Fe) in iron-limited batch cultures. Arch. Microbiol. 1978, 116 (3), 293–296.
http://dx.doi.org/10.1007/BF00417854