224. The decomposition of citric acid by Betacoccus cremoris

J. Van Beynum; J. W. Pette

doi:10.1017/S0022029900002880

Extract

The fermentation products of Betacoccus cremoris in neutral milk are acetic acid and carbonic acid. In acidified milk or in mixed cultures of this bacterium and lactic acid streptococci the products are acetic acid, C02, diacetyl, acetylmethyl carbinol and 2–3 butylene glycol. The latter three substances may be called “C4 compounds”. Diacetyl is only formed when an oxidation with atmospheric oxygen can take place. Carbinol is found in aerobic and in anaerobic cultures. It may be reduced to butylene glycol. This reduction is more complete at lower acidity, but also depends on the strain of Betacoccus used.

All these substances are formed from the citric acid of the milk. However, small amounts of acetic acid may be produced from sugar.

From 1 mol. of citric acid are formed: 2 mol. of carbon dioxide, 1–1·5 mol. of acetic acid, 0·5–0 mol. of C4 compounds.

A reciprocal relation exists between the quantities of acetic acid and C4 compounds. When the amount of acetic acid is high the C4 compounds content is low. The higher the acidity of the medium in which the betacocci are cultivated the higher is the amount of C4 compounds. This means that the fermentation in neutral media is the extreme case of the fermentation process. Then the production of C4 compounds is minimal (0) and that of acetic acid is maximal (1·5).

References

REFERENCES

(1)Van Beynum, 1934 Versl. landbk. Onderz. 40, 355.Google Scholar

(2)Hammer, 1920 Res. Bull. la agric. Exp. Sta. no. 63.Google Scholar

(3)Hammer, et al. 1935 Res. Bull. la agric. Exp. Sta. no. 191Google Scholar

(4)Van Beynum, 1933 Versl. landbk. Onderz. 39, 57Google Scholar

(5)Hammer, 1935 J. Dairy Sci. 18, 579CrossRef Google Scholar

(6)Brockmann, & Werkman, 1933 Industr. Engng Chem. Anal. Ed. 5, 206CrossRef Google Scholar

(7)Kunz, 1914 Arch. Chem. Mikr. 7, 285Google Scholar

(8)Van Beynum, & Pette, 1936 Versl. lanbk. Onderz. 42, 361Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Brewer, C. R. and Werkman, C. H. 1939. Dissimilation of citric acid byStreptococcus paracitrovorus. Antonie van Leeuwenhoek, Vol. 6, Issue. 1, p. 110.

Mattick, A. T. R. Hiscox, E. R. and Davis, J. G. 1941. Section B. Bacteriology and mycology applied to dairying. Journal of Dairy Research, Vol. 12, Issue. 3, p. 350.

Slade, H. D. and Werkman, C. H. 1941. The Anaerobic Dissimilation of Citric Acid by Cell Suspensions of Streptococcus paracitrovorus . Journal of Bacteriology, Vol. 41, Issue. 5, p. 675.

Hammer, B.W. and Babel, F.J. 1943. Bacteriology of Butter Cultures: A Review. Journal of Dairy Science, Vol. 26, Issue. 2, p. 83.

Campbell, J. J. R. and Gunsalus, I. C. 1944. Citric Acid Fermentation by Streptococci and Lactobacilli. Journal of Bacteriology, Vol. 48, Issue. 1, p. 71.

Calbert, Harold E. and Price, Walter V. 1949. A Study of the Diacetyl in Cheese II. The Changes in Diacetyl Content of Cheddar Cheese during Manufacturing and Curing. Journal of Dairy Science, Vol. 32, Issue. 6, p. 521.

Swartling, F. 1951. 451. Biochemical and serological properties of some citric acid fermenting streptococci from milk and dairy products. Journal of Dairy Research, Vol. 18, Issue. 3, p. 256.

Zielinska, M. and Hiscox, E. R. 1954. 555. Aroma-producing group ‘N’ streptococci isolated from Cheddar cheese curd. Journal of Dairy Research, Vol. 21, Issue. 2, p. 238.

Lintzel, W. 1957. Der Stoffwechsel. p. 326.

Mizuno, W.G. and Jezeski, J.J. 1959. Studies on Starter Metabolism. IV. Effect of Various Substrates on the Formation of Acetoin by a Mixed Strain Starter Culture. Journal of Dairy Science, Vol. 42, Issue. 2, p. 251.

Harvey, R. J. and Collins, E. B. 1961. ROLE OF CITRITASE IN ACETOIN FORMATION BY STREPTOCOCCUS DIACETILACTIS AND LEUCONOSTOC CITROVORUM . Journal of Bacteriology, Vol. 82, Issue. 6, p. 954.

WOOD, W.A. 1961. Metabolism. p. 59.

Harvey, R. J. and Collins, E. B. 1962. CITRATE TRANSPORT SYSTEM OF STREPTOCOCCUS DIACETILACTIS . Journal of Bacteriology, Vol. 83, Issue. 5, p. 1005.

Reiter, B. and Møller-Madsen, A. 1963. Section B. Cheese and butter starters. Journal of Dairy Research, Vol. 30, Issue. 3, p. 419.

Seitz, Eugene W. Sandine, W. E. Elliker, P. R. and Day, E. A. 1963. STUDIES ON DIACETYL BIOSYNTHESIS BY STREPTOCOCCUS DIACETILACTIS. Canadian Journal of Microbiology, Vol. 9, Issue. 4, p. 431.

Bruhn, J.C. and Collins, E.B. 1970. Reduced Nicotinamide Adenine Dinucleotide Oxidase of Streptococcus diacetilactis. Journal of Dairy Science, Vol. 53, Issue. 7, p. 857.

Cogan, T. M. 1975. Citrate utilization in milk byLeuconostoc cremorisandStreptococcus diacetilactis. Journal of Dairy Research, Vol. 42, Issue. 1, p. 139.

Kempler, G.M. and McKay, L.L. 1981. Biochemistry and Genetics of Citrate Utilization in Streptococcus lactis ssp. diacetylactis. Journal of Dairy Science, Vol. 64, Issue. 7, p. 1527.

Cogan, Timothy M. Fitzgerald, Richard J. and Doonan, Shawn 1984. Acetolactate synthase ofLeuconostoc lactisand its regulation of acetoin production. Journal of Dairy Research, Vol. 51, Issue. 4, p. 597.

Fitzgerald, Richard J. Doonan, Shawn and Cogan, Timothy M. 1986. Purification and characterization of the d-lactate dehydrogenase from Leuconostoc lactis. International Journal of Biochemistry, Vol. 18, Issue. 1, p. 31.

Download full list

Article contents

224. The decomposition of citric acid by Betacoccus cremoris

Extract

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

224. The decomposition of citric acid by Betacoccus cremoris

Extract

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests