Whey protein is a mixture of globular proteins isolated from whey, the liquid material created as a by-product of cheese production.
Whey protein is commonly marketed as a dietary supplement, and various health claims have been attributed to it in the alternative medicine community. Although whey proteins are responsible for some milk allergies, the major allergens in milk are the caseins.
Video Whey protein
Production of whey
Whey is left over when milk is coagulated during the process of cheese production, and contains everything that is soluble from milk after the pH is dropped to 4.6 during the coagulation process. It is a 5% solution of lactose in water, with some minerals and lactalbumin. The fat is removed and then processed for human foods. Processing can be done by simple drying, or the relative protein content can be increased by removing lipids and other non-protein materials. For example, spray drying after membrane filtration separates the proteins from whey.
Whey can be denatured by heat. High heat (such as the sustained high temperatures above 72 °C associated with the pasteurization process) denatures whey proteins. While native whey protein does not aggregate upon renneting or acidification of milk, denaturing the whey protein triggers hydrophobic interactions with other proteins, and the formation of a protein gel. Heat-denatured whey can still cause allergies in some people.
Maps Whey protein
Composition
Whey protein is the collection of globular proteins isolated from whey. The protein in cow's milk is 20% whey protein and 80% casein protein, whereas the protein in human milk is 60% whey and 40% casein. The protein fraction in whey constitutes approximately 10% of the total dry solids in whey. This protein is typically a mixture of beta-lactoglobulin (~65%), alpha-lactalbumin (~25%), bovine serum albumin (~8%)(see also serum albumin), and immunoglobulins. These are soluble in their native forms, independent of pH.
The amino acid cysteine in whey protein is a substrate for the synthesis of glutathione in the body which is a ubiquitous cellular antioxidant; laboratory experiments have suggested that whey protein and its components might reduce the risk of cancer in animals, suggesting an avenue for future medical research.
Major forms and use
Whey protein typically comes in four major forms: concentrate (WPC), isolate (WPI), hydrolysate (WPH) and Native Whey.
- Concentrates have typically a low (but still significant) level of fat and cholesterol but, in general, compared to the other forms of whey protein, they are higher in carbohydrates in the form of lactose -- they are 29%-89% protein by weight.
- Isolates are processed to remove the fat and lactose -- they are 90%+ protein by weight. Like whey protein concentrates, whey protein isolates are mild to slightly milky in taste.
- Hydrolysates are whey proteins that are predigested and partially hydrolyzed for the purpose of easier metabolizing, but their cost is generally higher. Highly hydrolysed whey may be less allergenic than other forms of whey.
- Native whey protein is extracted from skim milk, not a byproduct of cheese production, and produced as a concentrate and isolate.
Whey protein is commonly marketed as a dietary supplement, typically sold in powdered form for mixing into beverages. The products have varying proportions of the major forms above, and are promoted with various health claims in the alternative medicine community.
Health effects
In 2010 a panel of the European Food Safety Authority examined health claims made for whey protein. For the following claims either no references were provided on the claimed effect, or the provided studies did not test the claims or reported conflicting results:
- Increase in satiety leading to a reduction in energy intake
- Contribution to the maintenance or achievement of a normal body weight
- Growth or maintenance of muscle mass
- Increase in lean body mass during energy restriction and resistance training
- Reduction of body fat mass during energy restriction and resistance training
- Increase in muscle strength
- Increase in endurance capacity during the subsequent exercise bout after strenuous exercise
- Skeletal muscle tissue repair
- Faster recovery from muscle fatigue after exercise.
On the basis of the data presented, the 2010 panel concluded that a cause and effect relationship between the consumption of whey protein and these claims had not been established.
References
External links
- Whey protein resources, National Dairy Council
- Whey Protein Healthnotes, University of California, San Diego
- What does science say about whey protein and muscle building?, European Food Safety Authority on whey protein claims
Source of article : Wikipedia