Rennet

Rennet /ˈrɛnɪt/ is a complex set of enzymes produced in the stomachs of ruminant mammals. Chymosin, its key component, is a protease enzyme that curdles the casein in milk. In addition to chymosin, rennet contains other enzymes, such as pepsin and a lipase.

Animal rennet to be used in the manufacture of cheddar cheese

Rennet is used to separate milk into solid curds (for cheesemaking) and liquid whey, and so it or a substitute is used in the production of most cheeses.

Molecular action of rennet enzymes

One of the main actions of rennet is its protease chymosin cleaving the kappa casein chain.[1] Casein is the main protein of milk. Cleavage causes casein to stick to other cleaved casein molecules and form a network. It can cluster better in the presence of calcium and phosphate, which is why it is occasionally added in cheese making especially from calcium phosphate-poor goat milk. The solid truncated casein protein network traps other components of milk, such as fats and minerals, to create cheese.

Extraction of calf rennet

Calf rennet is extracted from the inner mucosa of the fourth stomach chamber (the abomasum) of young, nursing calves as part of livestock butchering. These stomachs are a byproduct of veal production.[2] If rennet is extracted from older calves (grass-fed or grain-fed), the rennet contains less or no chymosin, but a high level of pepsin and can only be used for special types of milk and cheeses. As each ruminant produces a special kind of rennet to digest the milk of its own species, milk-specific rennets are available, such as kid goat rennet for goat's milk and lamb rennet for sheep's milk.

Traditional method

Dried and cleaned stomachs of young calves are sliced into small pieces and then put into salt water or whey, together with some vinegar or wine to lower the pH of the solution. After some time (overnight or several days), the solution is filtered. The crude rennet that remains in the filtered solution can then be used to coagulate milk. About 1 g of this solution can normally coagulate 2 to 4 L of milk.[3]

Modern method

Deep-frozen stomachs are milled and put into an enzyme-extracting solution. The crude rennet extract is then activated by adding acid; the enzymes in the stomach are produced in an inactive form and are activated by the stomach acid. The acid is then neutralized and the rennet extract is filtered in several stages and concentrated until reaching a typical potency of about 1:15,000; meaning 1 g of extract can coagulate 15 kg of milk.

One kg of rennet extract has about 0.7 g of active enzymes – the rest is water and salt and sometimes sodium benzoate (E211), 0.5% - 1.0% for preservation. Typically, 1 kg of cheese contains about 0.0003 g of rennet enzymes.

Alternative sources

Because of the limited availability of mammalian stomachs for rennet production, cheese makers have sought other ways to coagulate milk since at least Roman times. The many sources of enzymes that can be a substitute for animal rennet range from plants and fungi to microbial sources.[4] Cheeses produced from any of these varieties of rennet are suitable for lactovegetarians. Fermentation-produced chymosin is used more often in industrial cheesemaking in North America and Europe today because it is less expensive than animal rennet.[5]

Vegetable

Many plants have coagulating properties. Homer suggests in the Iliad that the Greeks used an extract of fig juice to coagulate milk.[6] Other examples include several species of Galium, dried caper leaves,[7] nettles, thistles, mallow, Withania coagulans (also known as Paneer Booti, Ashwagandh and the Indian Cheesemaker), and ground ivy. Some traditional cheese production in the Mediterranean uses enzymes from thistle or Cynara (artichokes and cardoons). Phytic acid, derived from unfermented soybeans, or fermentation-produced chymosin (FPC) may also be used.

Vegetable rennet might be used in the production of kosher and halal cheeses, but nearly all kosher cheeses are produced with either microbial rennet or FPC. Commercial so-called vegetable rennets usually contain an extract from the mold Rhizomucor miehei.

Microbial

Some molds such as Rhizomucor miehei are able to produce proteolytic enzymes. These molds are produced in a fermenter and then specially concentrated and purified to avoid contamination with unpleasant byproducts of the mold growth.

The traditional view is that these coagulants result in bitterness and low yield in cheese, especially when aged for a long time. Over the years, microbial coagulants have improved a lot, largely due to the characterization and purification of secondary enzymes responsible for bitter peptide formation/non-specific proteolytic breakdown in cheese aged for long periods. Consequently, it has become possible to produce several high-quality cheeses with microbial rennet.[8]

It is also suitable for the elaboration of vegan cheese, provided no animal-based ingredients are used in its production.

Fermentation-produced chymosin

Because of the above imperfections of microbial and animal rennets, many producers sought other replacements of rennet. With genetic engineering it became possible to isolate rennet genes from animals and introduce them into certain bacteria, fungi, or yeasts to make them produce chymosin during fermentation. The genetically modified microorganism is killed after fermentation and chymosin isolated from the fermentation broth, so that the fermentation-produced chymosin (FPC) used by cheese producers does not contain a GMO or any GMO DNA. FPC is identical to chymosin made by an animal, but is produced in a more efficient way. FPC products have been on the market since 1990 and, because the quantity needed per unit of milk can be standardized, are commercially viable alternatives to crude animal or plant rennets, as well as generally preferred to them in industrial production.[9]

Originally created by biotechnology company Pfizer, FPC was the first artificially-produced enzyme to be registered and allowed by the US Food and Drug Administration.[10][11] In 1999, about 60% of US hard cheeses were made with FPC,[12] and it has up to 80% of the global market share for rennet.[13]

The most widely used FPC is produced either by the fungus Aspergillus niger and commercialized under the trademark CHY-MAX[14] by the Danish company Chr. Hansen, or produced by Kluyveromyces lactis and commercialized under the trademark MAXIREN[15] by the Dutch company DSM.

FPC is chymosin B, so is more pure than animal rennet, which contains a multitude of proteins. FPC can provide several benefits to the cheese producer compared with animal or microbial rennet, such as higher production yield, better curd texture, and reduced bitterness.[9]

Cheeses produced with FPC can be certified kosher[16][17] and halal,[17] and are suitable for vegetarians if no animal-based alimentation was used during the chymosin production in the fermenter.

Nonrennet coagulation

Many soft cheeses are produced without use of rennet, by coagulating milk with acid, such as citric acid or vinegar, or the lactic acid produced by soured milk. Cream cheese, paneer, and rubing are traditionally made this way (see Category:Acid-set cheeses for others). The acidification can also come from bacterial fermentation such as in cultured milk.

Vegan alternatives to cheese are manufactured without using animal milk but instead use soy, wheat, rice or cashew. These can be coagulated with acid using sources such as vinegar or lemon juice.[18][19][20][21]

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See also

References

Footnotes

  1. "Rennet in cheese - the science: How rennet works". 2013-06-12.
  2. O'Connor., C. (1993-01-01). Traditional Cheesemaking Manual. ILRI. p. 6. ISBN 9789290532736.
  3. Tamime, Adnan Y. (2008-04-15). Brined Cheeses. John Wiley & Sons. ISBN 978-1-4051-7164-9.
  4. "TECHNICAL REPORT OF EFSA: Explanatory Note for the Guidance of the Scientific Panel of Food Contact Materials, Enzymes, Flavourings and Processing Aids (CEF) on the Submission of a Dossier on Food Enzymes: 3.2. Source Materials and Manufacturing Process: Comments/Explanations: Updated on version 2014:EN-579". European Food Safety Authority. 2014-11-14. Retrieved 2015-11-11.
  5. "Chymosin". GMO Compass. Archived from the original on 2015-03-26. Retrieved 2011-03-03.
  6. P. F. Fox; Paul McSweeney; Timothy M. Cogan; Timothy P. Guinee (2004). Cheese: Major cheese groups. Academic Press. p. 2. ISBN 978-0-12-263652-3. Retrieved 2009-05-06.
  7. Mike, Tad, "Capers: The Flower Inside", Epikouria Magazine, Fall/Winter 2006
  8. "Marzyme Microbial Coagulant" (PDF). BMBtrade.it. 2011.
  9. Law, Barry A. (2010). Technology of Cheesemaking. UK: WILEY-BLACKWELL. pp. 100–101. ISBN 978-1-4051-8298-0.
  10. "FDA Approves 1st Genetically Engineered Product for Food". Los Angeles Times. 24 March 1990. Retrieved 1 May 2014.
  11. Staff, National Centre for Biotechnology Education, 2006. Case Study: Chymosin
  12. "Food Biotechnology in the United States: Science, Regulation, and Issues". U.S. Department of State. Retrieved 2006-08-14.
  13. E. Johnson, J. A. Lucey (2006) Major Technological Advances and Trends in Cheese J. Dairy Sci. 89(4): 1174–1178
  14. "Enzymes for Cheese". Chr-Hansen.com. Archived from the original on 2011-11-01. Retrieved 2012-07-30.
  15. "DSM Food Specialties — Product Page — Maxiren". DSM.com. Archived from the original on 2012-01-06. Retrieved 2013-01-28.
  16. "Say Cheese!".
  17. "Chymax spec sheet" (PDF).
  18. "These 25 Vegan Cheeses Will Make You Quit Dairy Forever". 2017-05-19.
  19. "12 Vegan Cheese Recipes That Will Change Your Life".
  20. "Vegan Cheese Recipes".
  21. "8 Amazing Vegan "Cheese" Recipes". 12 May 2014.

Bibliography

  • Carroll, Ricki. Making Cheese, Butter, & Yogurt. Storey Publishing 2003.
  • "Biotechnology and Food: Leader and Participant Guide", publication no. 569, produced by North Central Regional Extension. Printed by Cooperative Extension Publications, University of Wisconsin-Extension, Madison, WI, 1994. Publication date: 1994. Tom Zinnen and Jane Voichick
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