Leuconostoc mesenteroides is a well-known industrial producer of extracellular bacterial polysaccharide dextran. The main raw material for industrial cultivation of these microorganisms is molasses. Sucrose of molasses is the main source of carbon and energy for bacteria, as well as a precursor of dextran biosynthesis. It is known that the bacteria of the genus Leuconostoc are heterofermentative microorganisms and are capable to utilize various carbohydrates. The purpose of this study was to evaluate the of the corn biomass based mediumon the yield of bacterial biomass and the concentration of the extracellular polysaccharide.The hydrolyzate is a product of chemo-enzymatic treatment of plant lignocellulosic corn biomass and contains such monosaccharides as glucose, arabinose and xylose. The parameters of the composition of the medium were the concentration of hydrolyzate carbohydrates in the form of reducing substances (RS), the concentration of nitrogen (protein and non-protein), sucrose and the presence of minerals. The parameters of the cultivation process are pH and temperature. According to experimental data, the maximum yield of bacterial biomass (9.3 and 8.5%) were achieved on combined media with a sucrose content of 0.2% and a sodium salt (sodium phosphate), respectively. The highest specific growth rates of microorganisms (0.0840 and 0.0746) are demonstrated on a combined medium with a content of 0.15 and 0.3% inorganic nitrogen, respectively. The highest concentrations of extracellular polysaccharides (0.840 and 0.583%) are formed when magnesium and manganese salts are present in the nutrient medium. The optimal pH level for effective growth s is about 7, and the temperature in the range of 30-35 ° C.

hydrolyzate of lignocellulosic biomass, bacteria, extracellular polysaccharides, nutrient medium, cultivation, bacterial biomass

1. Mundt J.O. Lactic Acid Bacteria Associated

2. with Raw Plant Food Material.  J. Milk Food Technol. 1970. no. 33. pp. 550–553

3. Gordana R. Dimich Characteristics of the Leuconostoc mesenteroides subsp. mesenteroides strains from fresh vegetables  APTEFF. 2006. no. 37. pp. 1–192

4. Kim Yu Jin1, Hyun-Ju Eom, Eun-Young Seo, Dong Yup Lee et al. Development of a Chemically Defined Minimal Medium for the Exponential Growth of Leuconostocmesenteroides ATCC8293. J. Microbiol. Biotechnol. 2012. no. 22(11). pp. 1518–1522

5. Server-Busson C., Foucaud C., Leveau J. – Y. Selection of Dairy Leuconostoc Isolates for Important Technological Properties.  J. Dairy Res. 1999. no. 66. pp. 245–56.

6. Hemme D., Foucaud-Scheunemann C. Leuconostoс: Characteristics, Use in Dairy Technology and Prospects in Functional Foods.  International Dairy Journal. no. 200414. pp. 467–494.

7. Smit G., Smit B.A., Engels W.J.M. .Flavour formation by lactic acid bacteria and biochemical flavours profiling of cheese products.  FEMS Microbiol Rev. 2005. no. 29. pp. 591–610

8. Lacaze G., Wick M., Cappelle S. Emerging fermentation technologies: Development of novel sourdoughs, Food Microbiology. 2007. no. 24. pp. 155–160.

9. Diana C.R., Humberto H.S., Jorge Y.F. Probiotic Properties of Leuconostocmesenteroides Isolated from Aguamiel of Agave salmiana.  Probiotics Antimicrob Proteins. 2015. no.7(2). pp. 107–17

10. Garvie E.I. Genus Leuconostoc. Bergey’s manual of systematic bacteriology. Baltimore, Williams & Wilkins, 1986. p. 1071–1075.

11. Dols S M., Chraibi W., Remaud-Simeon M., LindleyN.D. et al. Growth and Energetics of Leuconostoc-mesenteroides NRRL B1299 during Metabolism of Various Sugars and Their Consequences for Dextransucrase Production. Applied and Environmental Microbiology. 1997. vol. 63. no. 6. pp. 2159–2165

12. Santos М., Teixeira J., Rodrigues A. Production of dextransucrase, dextran and fructose from sucrose using Leuconostocmesenteroides NRRL B512 (f). Biochemical Engineering Journal. 2000. pp. 4177–188

13. Foucaud C., Francois A., Richard J. Development of a Chemically Defined Medium for the Growth of Leuconostocmesenteroides. Applied And Environmental Microbiology. Jan. 1997. vol. 63. no. 1. pp. 301–304

14. Khusainov I.A. Conversion of lignocellulosic corn biomass to simple sugars. Prikladnaya biotekhnologiya [Applied Biotechnology]. 2017. (in Russian)

15. Garetova L.A. Otsenka parametrov rosta mikroorganizmov v usloviiakh periodicheskogo i nepreryvnogo kultivirovaniia metodicheskie ukazaniia k vypolneniiu laboratornoi raboty [Estimation of growth parameters of microorganisms under conditions of periodic and continuous cultivation: methodological instructions for performing laboratory work] Khabarovsk, Tikhook. state. University. 2010. 16 pp. (in Russian)