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Penicillium camemberti

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Penicillium camemberti
Scientific classification
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P. camemberti
Binomial name
Penicillium camemberti
Thom (1906)
Synonyms[1]
  • Penicillium album Epstein (1902)
  • Penicillium rogeri Wehmer (1906)
  • Penicillium caseicola Bainier (1907)
  • Penicillium biforme Thom (1910)
  • Penicillium candidum Roger (1923)
  • Penicillium paecilomyceforme Szilvinyi (1941)

Penicillium camemberti is a species of fungus in the family Trichocomaceae. It is used in the production of Camembert, Brie, Langres, Coulommiers and Cambozola cheeses, on which colonies of P. camemberti form a hard, white crust. It is responsible for giving these cheeses their distinctive taste. An allergy to the antibiotic penicillin does not necessarily imply an allergy to cheeses made using P. camemberti.[2]

When making soft cheese that involves Penicillium camemberti, the mold may be mixed into the ingredients before being placed in the molds, or it may be added to the outside of the cheese after it is removed from the cheese molds.[3] P. camemberti is responsible for the soft, buttery texture of Brie and Camembert, but a too high concentration may lead to an undesirable bitter taste.[4]

Using PCR techniques, cheese manufacturers can control cheese making by monitoring the mycelial growth of P. camemberti.[5] This is particularly significant, as controlling the growth is important to maintain desirable levels of compounds for flavor and to keep toxicity at a safe level.

History

The fungus was first described by Dr. Charles Thom in 1906.[6] It is considered to be a great subject for experiments and tests as the fungus thrives well in artificial situations, creates dense, enzymatic mycelia, and is readily available in markets from cheeses. P. camemberti is also important economically for the cheese industry.[7]

There are twenty-four isolates of Penicillia, resulting in “considerable taxonomic confusion”. However, these strains are only antigenically related, having similarities in micromorphology, growth rates, toxin production, and the ability to grow in water and at low temperatures. L. Polonelli et al. discovered that the twenty-four isolates can be grouped into nine subdivisions below the species level. This indicates that P. commune Thom is the wild-type, or the strain occurring in nature, ancestor of P. camemberti.[8] The complete genome sequence of P. camemberti was published in 2014.[9]

Toxic properties

As a fungus, Penicillium camemberti can produce toxins, in this case, cyclopiazonic acid. The amount of the mycotoxin produced depends on the strain of P. camemberti, as well as the temperature at which the culture is grown. Additionally, the toxin is typically more concentrated on the crust of the fungus rather than the inner part. In regards to safety, generally, consumers would only receive lower than a four microgram dose of cyclopiazonic acid. Still, it is advised to use weaker strains of the fungus, since the secretion of the toxin appears to be natural and necessary, but unhealthy for cheese consumers.[10]

Use in other foods

Since P. camemberti is responsible for the main flavor and odor of popular cheeses, the fungus can be utilized for the flavoring of other foods, such as dry, fermented sausages. José M. Bruna and his team saw that the flavor comes from compounds produced by the fungus, such as ammonia, methyl ketones, primary and secondary alcohols, esters, and aldehydes, and decided to superficially inoculate P. camemberti on dry, fermented sausages to improve its sensory properties. P. camemberti undergoes proteolysis and lipolysis, which is the breakdown of proteins and lipids, resulting in free amino acids, free fatty acids, and volatile compounds that allow for the ripened flavor. The fungus created a mycelium, protecting the lipids within, allowing for better flavor and odor of sausages. This is the potential starter culture for dry, fermented sausages.[11]

See also

References

  1. ^ "Penicillium camemberti Thom, U.S.D.A. Bureau of Animal Industry Bulletin, 82: 33, 1906". MycoBank. International Mycological Association. Retrieved 2013-09-12.
  2. ^ Wolke, Robert L. "Cheese Course". Washington Post. Retrieved 25 July 2014.
  3. ^ Helweg, Richard (2010). The Complete Guide to Making Cheese, Butter, and Yogurt at Home: Everything You Need to Know Explained Simply. Atlantic Publishing Company. pp. 148–149. ISBN 9781601383556.
  4. ^ Michelson, Patricia (2010). Cheese: Exploring Taste and Tradition. Gibbs Smith. p. 12. ISBN 9781423606512. Retrieved September 12, 2013.
  5. ^ Dréan, G. Le; Mounier, J.; Vasseur, V.; Arzur, D.; Habrylo, O.; Barbier, G. (31 March 2010). "Quantification of Penicillium camemberti and P. roqueforti mycelium by real-time PCR to assess their growth dynamics during ripening cheese". International Journal of Food Microbiology. 136 (1–2): 100–107. doi:10.1016/j.ijfoodmicro.2009.12.013. Retrieved 25 May 2015.
  6. ^ Thom C. (1906). "Fungi in cheese ripening; Camembert and Roquefort". U.S.D.A. Bureau of Animal Industry Bulletin. 82: 1–39 (see p. 33).
  7. ^ Dox, Arthur Wayland (1910). The Intracellular Enzymes of Penicillium andAspergillus. U.S. Dept. of Agriculture, Bureau of Animal Industry. p. 70.
  8. ^ Polonelli, L.; Morace, G.; Rosa, R.; Castagnola, M.; Frisvad, J.C. (1987). "Antigenic characterization of Penicillium camemberti and related common cheese contaminants". American Society for Microbiology. 53 (4): 872–878.
  9. ^ Cheeseman K, Ropars J, Renault P, et al. (2014). "Multiple recent horizontal transfers of a large genomic region in cheese making fungi". Nature Communications. 5: 2876. doi:10.1038/ncomms3876. PMC 3896755. PMID 24407037.
  10. ^ Bars, J. Le (1979). "Cyclopiazonic acid production by Penicillium camemberti Thom and natural occurrence of this mycotoxin in cheese". American Society for Microbiology. 38 (6): 1052–1055.
  11. ^ Bruna, José M.; Hierro, Eva M.; de la Hoz, Lorenzo; Mottram, Donald S.; Fernández, Manuela; Ordóñez, Juan A. (15 August 2003). "Changes in selected biochemical and sensory parameters as affected by the superficial inoculation of Penicillium camemberti on dry fermented sausages". International Journal of Food Microbiology. 85 (1–2): 111–125. doi:10.1016/s0168-1605(02)00505-6.