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CHALLANGING THE BIOGEOCHEMICAL POTENTIAL OF ANTARCTIC YEAST: BIOREACTOR DYNAMICS IN VISCOUS BROTHS CONTAINING EXOPOLYSACCHARIDES

Vlaev, Serafim, Martinov, Martin, Pavlova, Konstantsa, Rusionova-Videva, Sneghana, Georgiev, Dobrin

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b61/s25.041View metrics

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Title
CHALLANGING THE BIOGEOCHEMICAL POTENTIAL OF ANTARCTIC YEAST: BIOREACTOR DYNAMICS IN VISCOUS BROTHS CONTAINING EXOPOLYSACCHARIDES
Authors
Vlaev, Serafim, Martinov, Martin, Pavlova, Konstantsa, Rusionova-Videva, Sneghana, Georgiev, Dobrin
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on NANO, BIO AND GREEN TECHNOLOGIES FOR A SUSTAINABLE FUTURE
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-20-9
Language
en
Publication type
Conference Paper
References30
  1. Kumar, A.S.& Mody K, Microbial Exopolysaccharides: Variety and Potential Applications In: L.H.A. Rehm (ed itor) Microbial Production of Biopolymers and Polymer Precursors: Applications and Perspectives, Caister Academic Press, 2009, pp. 229-232.

  2. Galindo E , Aspects of the process for xanthan production. Trans Inst Chem Eng, 72C, 1994, pp. 227-237.

  3. Liu, G. C. Du, J. Chen, M. Wang, J. Sun , Comparative study on the influence of dissolved oxygen control approaches on the microbial hyaluronic acid production of Streptococcus Zooepidemicus , Bioproc. Biosyst. Eng., 32, 2009, pp. 755-763.

  4. Vlaev S.D., Rusinova-Videva Sn., Pavlova K., Kuncheva M., Panchev I., Dobreva Sv., Submerged culture process for biomass and exopolisaccharide production by Antarctic yeast: Some engineering considerations, Appl. Microbiol. Biotechnol., 97, 2013, pp. 5303–5313.

  5. Amanu llah A, Buckland BC, Nienow AW , Mixing in the fermentation and cell culture industries. In: Paul ,E.L., Atiemo -Obeng V .A., Kresta , S.M. (eds), Handbook of indus trial mixing. Wiley, New Jersey, 2004, pp. 1071-1171.

  6. Kraitschev, S., Vlaev, S.D., Losev, V., Staykov, P., A new arc-blade version of a turbine impeller suitable for bioreactors,Biotechnol. Biotechnol. Eq. 15 (2001) pp 128-131.

  7. F. Donot a, A. Fontan a, J.C. Baccou a, S. Schorr -Galindo, Microbial exopolysaccharides: Main examples of synthesis, excretion, genetics , and extraction Carbohydrate Polymers 87 2012, 951– 962

  8. Pavlova K. Production of polymers and other compounds of industrial importance by cold- adapted yeasts. In: Buzzini P, Margesin R (eds) Cold-adapted yeasts: Biodiversity, Adaptation Strategies and Biotechnological Significance, Springer Verlag, Berlin Heidelberg, 2013, pp. 397-405.

  9. Pavlova, K., R usinova-Videva, S., K uncheva , M., Kratchanova, M., Gocheva, M., Dimitrova, S., Synthesis and characterization of an еxopolysaccahride by Antarctic yeast strain Cryptococcus laurentii AL100, Appl. Biochem. Biotechnol., 163,2011, pp. 1038-1052.

  10. Dimitrova, S., Pavlova, K., Lukanov, L., Korotkova, E., Petrova, E., Zagorchev, P., Kuncheva, M., Production of metabolites with antioxydant and emulsifying properties by Antractic strain S. salmonicolor AL1, Appl. Biochem. Biotechnol., 169, 2013, pp. 301-311.

  11. Pavlova, K., Koleva, L., Kratchanova, M., Panchev, I., Production and characterization of an exopolysaccharide by yeast, World J. Microbiol. Biotechnol., 20, 2004, pp. 435-439.

  12. Garcia-Ochoa F, Gomez Castro E, Santos V.E. Oxygen transfer and uptake rates during xanthan gum production. Enzyme Microb Technol 27, 2000, pp. 680-690.

  13. Ranade, V.V., Computational flow modeling for chemical reactor engineering. Academic Press, San Diego, 2003

  14. Vlaev, S.D., Martin ov, M, Radchenkova, N., Kambourova, M., Production of exopolysaccharides by bacterial strains from Bulgarian geothermal springs: bioengineering parameters at elevated scale. In.: Nano, Bio and Green - Technologies for a Sustainable Future, SGEM 2013, Stef 92 Technology Publ., Sofia, 2013, pp. 219-226.

  15. Vlaev S.D., Georgiev D., Nikov I. & Elqotbi M. Shear analysis of mixing reactors – verification of the CFD approach, In: Proc. 12 th European Conference on Mixing, Bologna , (Editors: F.Magelli, G.Baldi, A.Brucato), 2006, pp. 479-486.

  16. Kumar, A.S.& Mody K, Microbial Exopolysaccharides: Variety and Potential Applications In: L.H.A. Rehm (ed itor) Microbial Production of Biopolymers and Polymer Precursors: Applications and Perspectives, Caister Academic Press, 2009, pp. 229-232.

  17. Galindo E , Aspects of the process for xanthan production. Trans Inst Chem Eng, 72C, 1994, pp. 227-237.

  18. Liu, G. C. Du, J. Chen, M. Wang, J. Sun , Comparative study on the influence of dissolved oxygen control approaches on the microbial hyaluronic acid production of Streptococcus Zooepidemicus , Bioproc. Biosyst. Eng., 32, 2009, pp. 755-763.

  19. Vlaev S.D., Rusinova-Videva Sn., Pavlova K., Kuncheva M., Panchev I., Dobreva Sv., Submerged culture process for biomass and exopolisaccharide production by Antarctic yeast: Some engineering considerations, Appl. Microbiol. Biotechnol., 97, 2013, pp. 5303–5313.

  20. Amanu llah A, Buckland BC, Nienow AW , Mixing in the fermentation and cell culture industries. In: Paul ,E.L., Atiemo -Obeng V .A., Kresta , S.M. (eds), Handbook of indus trial mixing. Wiley, New Jersey, 2004, pp. 1071-1171.

  21. Kraitschev, S., Vlaev, S.D., Losev, V., Staykov, P., A new arc-blade version of a turbine impeller suitable for bioreactors,Biotechnol. Biotechnol. Eq. 15 (2001) pp 128-131.

  22. F. Donot a, A. Fontan a, J.C. Baccou a, S. Schorr -Galindo, Microbial exopolysaccharides: Main examples of synthesis, excretion, genetics , and extraction Carbohydrate Polymers 87 2012, 951– 962

  23. Pavlova K. Production of polymers and other compounds of industrial importance by cold- adapted yeasts. In: Buzzini P, Margesin R (eds) Cold-adapted yeasts: Biodiversity, Adaptation Strategies and Biotechnological Significance, Springer Verlag, Berlin Heidelberg, 2013, pp. 397-405.

  24. Pavlova, K., R usinova-Videva, S., K uncheva , M., Kratchanova, M., Gocheva, M., Dimitrova, S., Synthesis and characterization of an еxopolysaccahride by Antarctic yeast strain Cryptococcus laurentii AL100, Appl. Biochem. Biotechnol., 163,2011, pp. 1038-1052.

  25. Dimitrova, S., Pavlova, K., Lukanov, L., Korotkova, E., Petrova, E., Zagorchev, P., Kuncheva, M., Production of metabolites with antioxydant and emulsifying properties by Antractic strain S. salmonicolor AL1, Appl. Biochem. Biotechnol., 169, 2013, pp. 301-311.

  26. Pavlova, K., Koleva, L., Kratchanova, M., Panchev, I., Production and characterization of an exopolysaccharide by yeast, World J. Microbiol. Biotechnol., 20, 2004, pp. 435-439.

  27. Garcia-Ochoa F, Gomez Castro E, Santos V.E. Oxygen transfer and uptake rates during xanthan gum production. Enzyme Microb Technol 27, 2000, pp. 680-690.

  28. Ranade, V.V., Computational flow modeling for chemical reactor engineering. Academic Press, San Diego, 2003

  29. Vlaev, S.D., Martin ov, M, Radchenkova, N., Kambourova, M., Production of exopolysaccharides by bacterial strains from Bulgarian geothermal springs: bioengineering parameters at elevated scale. In.: Nano, Bio and Green - Technologies for a Sustainable Future, SGEM 2013, Stef 92 Technology Publ., Sofia, 2013, pp. 219-226.

  30. Vlaev S.D., Georgiev D., Nikov I. & Elqotbi M. Shear analysis of mixing reactors – verification of the CFD approach, In: Proc. 12 th European Conference on Mixing, Bologna , (Editors: F.Magelli, G.Baldi, A.Brucato), 2006, pp. 479-486.

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