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Julyš2017, №š8š(208), pagesš59-61

doi: 10.25198/1814-6457-208-59

Klimova T.A., Barysheva E.S., Sizentsov A.N. ESTIMATION OF THE EFFECT OF ANIONIC IRON COMPONENTS ON BIOTOXICITY WITH RESPECT TO PROBIOTIC STRAINSMetals have the ability to bioaccumulate. Microorganisms can extract and concentrate metals. This ability is possessed by microorganisms that are part of probiotic preparations, in particular bacteria of the genus Bacillus. It is very important that the microorganisms of the genus Bacillus, which are part of probiotic preparations, are self-antagonizing antagonists. Bacteria of the genus Bacillus, which are part of probiotic preparations, can exert an antitoxic effect, which manifests itself in the active excretion of toxic substances from the body, as well as heavy metals. The purpose of our work was to study the effect of anionic iron components on the biotoxicity of probiotic strains. Probiotic strains included probiotic preparations: B.šsubtilis 534, B.šcereus 5832, B.šsubtilis 10641, B.šamyloliquefaciens 10642, B.šamyloliquefaciens 10643. The data obtained indicate a significant biotoxicity of anionic iron components with respect to probiotic strains . The most sensitive were the action of the anionic components of ferric chloride III. B.šcereus 5832 and B.šamyloliquefaciens 10642, when exposed to the anionic components of iron (II) nitrate B.šsubtilis 10641, when exposed to the anionic components of iron (II) sulfate B.šamyloliquefaciens 10642. It was also found that high concentrations of anionic iron components have a significant toxic effect on all probiotic strains studied, which is due to the anionic component and, as a consequence, the level of dissociation of the molecules of the test compounds.Key words: iron, probiotic strains, biotoxicity.

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References:

1. State report “On the state and on the protection of the environment of the Orenburg region in 2013”.

2. Sizentsov, A. Estimation of the effectiveness of the use of probiotic drugs based on bacteria of the genus Bacillus with iron intoxication / A. Sizentsov, O. Kwan, T. Galchenko // Modern problems of science and education. — 2013. — No. 5. — P. 503.

3. Pharmacological aspects of the use of probiotics [Electronic resource]. — Access mode: http://www.zoovet.ru. — Veterinary Center ZOOVET. — Moscow.: ZOOVET.RU, 2006. (Date of circulation: 11.12.2011).

4. The effectiveness of the use of probiotic drugs based on bacteria of the genus Bacillus in the iron delivery system / A. Sizentsov [and others] // Bulletin of Restorative Medicine: Publishing of specialists in reconstructive medicine. — Moscow. — 2014. — No. 2. — P. 66-75.

5. Costa A., Duta F. Bioaccumulation of copper, zinc, cadmium and lead by Bacillus sp., B. cereus, B. sphaericus and B. subtilis. Brazilian Journal of Microbiology, 2005, no. 1, pp. 159-175.

6. Khanafari A., Eshghdoost S., Mashinchian A. Removal of lead and chromium from aqueous solution by Bacillus circulans. Iranian Journal of Environmental Health, Science and Engineering, 2008, V. 5, no. 3, pp. 195-200.

7. Nikitina, Yu. E. Investigation of the influence of microelements and macroelements on the human body and bioaccumulation of some ions of heavy metals by microorganisms / Yu. E. Nikitina // VIII International Student Electronic Scientific Conference “Student Scientific Forum — 2016”, 2016. — S. 27-28.

8. Fuller R. Probiotics: prospects of use in opportunistic infections. N.Y., 2005, no. 3, pp. 150-165.

9. Sioutas C., Delfino R.J., Singh M. Exposure assessment for atmospheric Ultrafine Particles (UFPs) and implications in epidemiologic research. Environmental Health Perspectives, 2005, V. 113, pp. 947-955.

10. Stone V., Shaw J., Brown D.M., Macnee W., Faux S.P., Donaldson K. The role of oxidative stress in the prolonged inhibitory effect of epithelial cell function. Toxicology in Vitro, 1998, V. 12, pp. 649-659.

11. Ashmarin, IP Statistical Methods in Microbiology / IP Ashmarin, AA Vorobiev. — L.: Gos. ed. honey. lit., 1962. — 177 p.

12. Hentze M.W., Muckenthaler M.U., Andrews N.C. Balancing acts: molecular control of mammalian iron metabolism. Cell, 2004, V. 117, pp. 285-297.

13. Rafie-Kolpin M., Chefalo P.J., Hussain Z. Two heme-binding domains of heme-regulated eukaryotic initiation factor-2b-kinase. J. Biol. Chem., 2007, V. 275, pp. 5171-5178.

14. Sizentsov, A. The effectiveness of the use of probiotic drugs in zinc intoxication / A. Sizentsov // Veterinary Journal: Encyclopedia. — Stavropol. — 2013. — No. 2. — P. 34-36.

15. Sizentsov, A. Bioaccumulation of Heavy Metals by Microorganisms Containing Probiotic Preparations in In vitro Conditions / A. Sizentsov, S. Peshkov // Vestnik of the Orenburg State University: publishing house Orenburg State University. — Orenburg. — 2013. — No. 10. — P. 142-144.


About this article

Authors: Klimova T.A., Barysheva E.S., Sizentsov A.N.

Year: 2017

doi: 10.25198/1814-6457-208-59

Editor-in-chief
Sergey Aleksandrovich
MIROSHNIKOV

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