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Vitamins are a class of essential nutrients that cannot be synthesized (either at all or in sufficient quantities) by a given animal organism and must be taken (in trace quantities) with food for that organism's continued good health. Humans require 13 different vitamins. The term vitamin is not used for other classes of essential nutrients including dietary minerals, essential fatty acids or essential amino acids. Nor is it used for the large number of other nutrients that are merely health-furthering, but not strictly essential.

The name was coined by the Polish biochemist Kazimierz Funk in 1912. Vita in Latin is life and the -amin suffix is short for amine; at the time it was thought that all vitamins were amines. Though this is now known to be incorrect, the name has stuck.

History

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The value of eating certain foods to maintain health was recognized long before vitamins were identified. The ancient Egyptians knew that feeding a patient liver would help cure night blindness, now known to be cased by a Vitamin A deficiency. In 1747, the Scottish surgeon James Lind discovered that citrus foods helped prevent scurvy, a particularly deadly disease characterized by bleeding and severe pain. In 1753, Lind published his Treatise on the Scurvy.

In 1905, William Fletcher discovered that eating unpolished rice instead of polished helped prevent the disease beriberi. The following year, Frederick Hopkins postulated that foods contained "accessory factors"—in addition to proteins, carbohydrates, fats, etc.—that were necessary to the human body. When Kazimierz Funk isolated the chemical that Fletcher had identified, he proposed that it be named "Vitamine". The name soon became synonymous with Hopkins' "accessory factors", and by the time it was shown that not all vitamins were amines, the word was ubiquitous.

Throughout the early 1900s, scientists were able to isolate and identify a number of vitamins by depriving animals of them.

Essential vitamins

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Vitamin name Chemical name Water/fat soluble Notes
Vitamin A Retinoids Fat Discovered by Elmer V. McCollum and M. Davis between 1912 and 1914. Deficiency causes night-blindness. Not a single chemical, but a group of chemicals derived from Retinol.
Vitamin B1 Thiamine Water Discovered by Kazimierz Funk in 1912. Deficiency causes beriberi.
Vitamin B2 Riboflavin Water Discovered by D. T. Smith and E. G. Hendrick in 1926. Deficiency causes ariboflavinosis. Also known as Vitamin G.
Vitamin B3 Niacin Water Discovered by Conrad Elvehjem in 1937. Deficiency causes pellagra. Also known as Vitamin P or Vitamin PP (for prevents pellagra).
Vitamin B5 Pantothenic acid Water
Vitamin B6 Pyridoxine, pyridoxamine, or pyridoxal Water Discovered by Paul Gyorgy in 1934.
Vitamin B12 Cobalamin Water Deficiency causes pernicious anaemia.
Vitamin C Ascorbic acid Water Identified by James Lind in 1747. Rediscovered by A. Hoist and T. Froelich in 1912. Deficiency causes scurvy.
Vitamin D Calciferol Fat Discovered by Edward Mellanby in 1922. Deficiency causes rickets. Synthesized in small amounts by the body depending on exposure to sunlight.
Vitamin E Tocopherol Fat Discovered by Herbert Evans and Katherine Bishop in 1922.
Vitamin K Naphthoquinoids Fat Not a single chemical, but a group of chemicals derived from Naphthoquinone.
Vitamin H Biotin Water
Vitamin M Folic acid Water Discovered by Lucy Wills 1933.

Solubility

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Fat-soluble vitamins may be stored in the body and can cause toxicity when taken in excess. Water-soluble vitamins are not stored in the body. Unlike food, water, and—for aerobic organisms—air, an organism can survive for some time without vitamins, although prolonged vitamin deficit results in a disease state.

Vitamin deficiency diseases

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Vitamins were first recognised by the diseases that occur from a lack of certain foods; for example, the British Royal Navy's observation that limes were effective in preventing scurvy led to the discovery of vitamin C. Several diseases are caused by a lack of adequate vitamin intake. These can become severe, even life-threatening. Most vitamin deficiencies are simply called after the name of the vitamin, such as vitamin K deficiency disease.

About names

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The usage of names in the format "vitamin letter" and "vitamin letter number" is diminishing. This is especially true for vitamins H, M, B1, B2, B3, and B5, which are usually called by their proper chemical names.

On the other hand, vitamins D and E are still usually called by their symbolic names, and A and K don't even have proper chemical names (since they are mixtures of chemicals). The names ascorbic acid and vitamin C are used with similar frequency.

Former and future vitamins

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Vitamin name Notes
Vitamin F Vitamin F was the designation originally given to essential fatty acids that the body cannot manufacture. They were "de-vitaminized" because they are fatty acids. Fatty acids are a major component of fats.
Vitamin S Although there is no Vitamin S, the suggestion has been made that salicylic acid may qualify for the criteria needed to be defined as a vitamin, and that in this case the designation "Vitamin S" could be used to describe it.

Non-vitamins

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Several medicines and herbs are given vitamin names, although they aren't considered such by the medical community.

New vitamin discoveries

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On April 24, 2003 a research team led by Takafumi Kato of the Japanese Institute of Physical and Chemical Research confirmed that pyrroloquinoline quinone (PQQ), a substance originally discovered in 1979, can be categorised as a vitamin in mice.

Some authorities say that Ubiquinone, also called Coenzyme Q, is a vitamin (See ref.) Ubiquinone is manufactured by the body, so other authorities dispute this. However most humans need about 500mg/day, but manufacture less as they age. Ubiquinone's primary action is as an antioxidant many times more powerful than Vitamin E, and one of its most important roles is to prevent oxidative damage to mitochondria, the cellular organelles that power human metabolism. Many authorities say that Ubiquinone supplementation has value to treat or prevent some symptoms and diseases of aging.

Non-human vitamins

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Different organisms need different trace organic substances. The list of vitamins in this article refers to humans. Most mammals need, with few exceptions, the same vitamins (except that most species don't need ascorbic acid in their diet as they synthesize their own). The further apart from mammals a species is, the more diverse the organisms' requirements become. For example, some bacteria need adenine. Pyrroloquinoline quinone (PQQ) was reported as a vitamin for mice in 2003.

See also

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[[Category:Essential nutrients]] [[Category:Nutrition]] [[ca:Vitamina]] [[da:Vitamin]] [[de:Vitamin]] [[es:Vitamina]] [[eo:Vitamino]] [[fr:Vitamine]] [[he:ויטמין]] [[it:Vitamine]] [[nl:Vitamine]] [[ja:ビタミン]] [[pl:Witamina]] [[pt:Vitamina]] [[sv:Vitaminer]] [[zh:维生素]]