Selection of yeast strain producing acetic acid
Keywords:
yeast, acetic acid, acetic bacteria, alcoholic fermentationAbstract
A yeast strain E2 was purified from traditional yeast, and retained for its strongly acidifying, fermentative and saccharolytic power. In fact, this strain produces a high concentration of acetic acid 105.85 mg / L revealed by using the H.P.L.C DAD technique during its growth in semi synthetic medium containing sucrose at 5 g /l as only carbon source. The pH of the culture medium increases from 5.58 to 2.76 after 24 hours of culture and to 2.48 after 48 hours of incubation. The initial biomass (D.Oi) increases from the value 0.659 to 5.36 after 24h and to 8.38 after 48h under the same conditions. A yeast strain E2 was purified from traditional yeast, and retained for its strongly acidifying, fermentative and saccharolytic power. In fact, this strain produces a high concentration of acetic acid 105.85 mg / L revealed by using the H.P.L.C DAD technique during its growth in semi synthetic medium containing sucrose at 5 g /l as only carbon source. The pH of the culture medium increases from 5.58 to 2.76 after 24 hours of culture and to 2.48 after 48 hours of incubation. The initial biomass (D.Oi) increases from the value 0.659 to 5.36 after 24h and to 8.38 after 48h under the same conditions.
References
C. Divies, ‘Le vinaigre, Microbiologie Alimentaire, les Fermentations Alimentaires’, Ed. Lavoisier, Paris, pp. 93-105, 1989
Cooney (C.L.), Levine (D.W.) – Microbial utilization of methanol. -Adv. Appl. Microbiol., 1972, 15, 337-365.
http://www.garfield.library.upenn.edu/classics1977/A1977DM02500001.pdf
Leguerinel I., Mafart P., Cleret J.J., Bourgeois C. (1989) Yeast strain and kinetic aspects of the formation of flavor components in cider. Journal of the Institute of Brewing, 95, pp. 405-409.
N. Boughnou, ‘Essai de Production du Vinaigre à partir des Déchets de Dattes’, Thèse Magister, INA, El Harrach, 82 p., 1988.
Nelson (N.) – A photometric adaptation of the Somogyi methode for the determination of glucose. – J. Biol. Chem., 1944, 153, 375-380.
Production report. Chem. Eng. News (July 11, 2005), 67–76.
Qualité Hygiénique et Caractéristiques Physico-Chimiques du Vinaigre Traditionnel de Quelques Variétés de Dattes de la Cuvette de Ouargla*M.D. Ould El Hadj, A.H. Sebihi et O. Siboukeur Rev. Energ. Ren. : Production et Valorisation – Biomasse, (2001) 87-92
Somogyi (M.) – Notes on sugar determination. – J. Biol. Chem., 1952, 195(1), 19-23. http://www.jbc.org/cgi/reprint/195/1/19.pdf
Suresh, Bala (2003). “Acetic Acid” [archive].CEH Report 602.5000, SRI International.
Yoneda, Noriyki; Kusano, Satoru; Yasui, Makoto; Pujado, Peter; Wilcher, Steve (2001). Appl. Catal. A: Gen.221, 253–265.
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