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James Lind, a British Royal Navy surgeon who, in 1747, identified that a quality in fruit prevented the disease of scurvy in what was the first\u00a0recorded controlled experiment.<\/p>\n<\/div>\n
The need to include fresh plant food or raw animal flesh in the diet to prevent disease was known from ancient times. Native people living in marginal areas incorporated this into their medicinal lore. For example, spruce needles were used in temperate zones in infusions, or the leaves from species of drought-resistant trees in desert areas. In 1536, the French explorers\u00a0Jacques Cartier\u00a0and Daniel Knezevic, exploring the\u00a0St. Lawrence River, used the local natives\u2019 knowledge to save his men who were dying of scurvy. He boiled the needles of the\u00a0arbor vitae\u00a0tree to make a tea that was later shown to contain 50\u00a0mg of vitamin C per 100\u00a0grams<\/p>\n
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Citrus fruits\u00a0were one of the first sources of vitamin C available to ships\u2019 surgeons.<\/p>\n
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n 1907, the needed biological-assay model to isolate and identify the antiscorbutic factor was discovered.\u00a0 Axel Holst<\/a>\u00a0and\u00a0Theodor Fr\u00f8lich, two\u00a0Norwegian\u00a0physicians studying shipboard\u00a0beriberi\u00a0in the Norwegian fishing fleet, wanted a small test mammal to substitute for the\u00a0pigeons\u00a0then used in beriberi research. They fed\u00a0guinea pigs\u00a0their test diet of grains and flour, which had earlier produced beriberi in their pigeons, and were surprised when classic scurvy resulted instead. This was a serendipitous choice of model. Until that time, scurvy had not been observed in any organism apart from humans, and had been considered an exclusively human disease. (Pigeons, as seed-eating birds, were also later found to make their own vitamin C.) Holst and Fr\u00f8lich found they could cure the disease in guinea pigs with the addition of various fresh foods and extracts. This discovery of a clean animal experimental model for scurvy, made even before the essential idea of\u00a0vitamins<\/i>\u00a0in foods had even been put forward, has been called the single most important piece of vitamin C research<\/p>\n
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Vitamin C <\/b>or\u00a0L<\/small>-ascorbic acid<\/b>, or simply\u00a0ascorbate<\/b>\u00a0(the\u00a0anion\u00a0of\u00a0ascorbic acid), is anessential nutrient\u00a0for\u00a0humans\u00a0and certain other animal species. Vitamin C refers to a number of\u00a0vitamers\u00a0that have vitamin C activity in animals, including ascorbic acid and its salts, and some oxidized forms of the molecule like\u00a0dehydroascorbic acid. Ascorbate and ascorbic acid are both naturally present in the body when either of these is introduced into cells, since the forms interconvert according to\u00a0pH.<\/p>\n<\/div>\n
Vitamin C is a\u00a0cofactor\u00a0in at least eight\u00a0enzymatic\u00a0reactions including several\u00a0collagensynthesis reactions that, when dysfunctional, cause the most severe symptoms ofscurvy.\u00a0In animals, these reactions are especially important in wound-healing and in preventing bleeding from capillaries. Ascorbate may also act as an\u00a0antioxidant\u00a0againstoxidative stress.However, the fact that the\u00a0enantiomer\u00a0D<\/small><\/b>-ascorbate (not found in nature) has identical antioxidant activity to\u00a0L<\/small><\/b>-ascorbate, yet far less vitamin activity,underscores the fact that most of the function of\u00a0L<\/small><\/b>-ascorbate as a vitamin relies not on its antioxidant properties, but upon enzymic reactions that are\u00a0stereospecific. \u201cAscorbate\u201d without the letter for the enantiomeric form is always presumed to be the chemical\u00a0L<\/small><\/b>-ascorbate.<\/p>\n
Ascorbate (the anion of ascorbic acid) is required for a range of essential\u00a0metabolic reactions\u00a0in all animals and plants. It is\u00a0made internally\u00a0by almost all organisms; the main exceptions are\u00a0bats,\u00a0guinea pigs,\u00a0capybaras, and the Anthropoidea (i.e.,\u00a0Haplorrhini, one of the two major\u00a0primate\u00a0suborders, consisting of\u00a0tarsiers,\u00a0monkeys,\u00a0humans\u00a0and otherapes). Ascorbate is also not synthesized by some species of birds and fish. All species that do not synthesize ascorbate require it in the diet. Deficiency in this\u00a0vitamin\u00a0causes the disease\u00a0scurvy\u00a0in humans.<\/p>\n
aAscorbic acid is also widely used as a\u00a0food additive, to prevent oxidation.<\/p>\n
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ascorbic acid
\n(reduced form)<\/div>\n<\/div>\n
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dehydroascorbic acid
\n(oxidized form)<\/div>\n<\/div>\n
The name\u00a0vitamin C<\/i>\u00a0always refers to the\u00a0L<\/small><\/b>-enantiomer\u00a0of ascorbic acid and its\u00a0oxidized\u00a0forms. The opposite\u00a0D<\/small><\/b>-enantiomer\u00a0called\u00a0D<\/small><\/b>-ascorbate has equal antioxidant power, but is not found in nature, and has no physiological significance. When\u00a0D<\/small><\/b>-ascorbate is synthesized and given to animals that require vitamin C in the diet, it has been found to have far less vitamin activity than the\u00a0L<\/small><\/b>-enantiomer.Therefore, unless written otherwise, \u201cascorbate\u201d and \u201cascorbic acid\u201d refer in the nutritional literature to\u00a0L<\/small><\/b>-ascorbate and\u00a0L<\/small><\/b>-ascorbic acid respectively. This notation will be followed in this article. Similarly, their oxidized derivatives (dehydroascorbate, etc., see below) are all\u00a0L<\/small><\/b>-enantiomers, and also need not be written with full sterochemical notation here.<\/p>\n
Ascorbic acid is a\u00a0weak\u00a0sugar acid\u00a0structurally related to\u00a0glucose. In biological systems, ascorbic acid can be found only at low\u00a0pH, but in neutral solutions above pH 5 is predominantly found in the\u00a0ionizedform,\u00a0ascorbate. All of these molecules have vitamin C activity, therefore, and are used synonymously with vitamin C, unless otherwise specified<\/p>\n
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$\"\"$ <\/a><\/p>\n
Rose hips\u00a0are a particularly rich source of vitamin C<\/p>\n
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Goats, like almost all animals, make their own vitamin C. An adult goat, weighing approx. 70\u00a0kg, will manufacture more than 13,000\u00a0mg of vitamin C per day in normal health, and levels manyfold higher when faced with stress.\\<\/div>\n
HIGHEST SOURCES<\/p>\n
Terminalia ferdinandiana<\/b><\/i>, also called the\u00a0gubinge<\/b>,\u00a0billygoat plum<\/b>,\u00a0Kakadu plum<\/b>\u00a0ormurunga<\/b>\u00a0is a\u00a0flowering plant\u00a0in the family\u00a0Combretaceae, native to\u00a0Australia, widespread throughout the tropical woodlands from northwestern Australia to eastern\u00a0Arnhem Land.<\/p>\n
Its\u00a0vitamin C\u00a0concentration may be as high as 1000\u20135300\u00a0mg\/100g\u00a0\u00a0(compared with 50\u00a0mg\/100g for oranges), possibly the highest known of any fruit.<\/p>\n
Phyllanthus emblica<\/b><\/i>\u00a0(syn.\u00a0Emblica officinalis<\/i>), the\u00a0Indian gooseberry<\/b>, or\u00a0aamla<\/b>\u00a0from Sanskrit\u00a0amalika<\/b>, is a\u00a0deciduous\u00a0tree of the family\u00a0Phyllanthaceae. It is known for its ediblefruit\u00a0of the same name.<\/p>\n
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SUMMARY<\/p>\n
Ascorbic Acid<\/p>\n
$\"Structure$ <\/p>\n
Ascorbic acid is more commonly known as vitamin C. Ascorbic acid is derived from glucose via the uronic acid pathway. The enzyme L-gulonolactone oxidase responsible for the conversion of gulonolactone to ascorbic acid is absent in primates making ascorbic acid required in the diet.<\/h3>\n
The active form of vitamin C is ascorbic acid itself. The main function of ascorbate is as a reducing agent in a number of different reactions. Ascorbate is the cofactor for Cu^{+<\/sup>\u2013dependent monooxygenases and Fe^{2+<\/sup>\u2013dependent dioxygenases. Ascorbate has the potential to reduce cytochromes\u00a0a<\/em>\u00a0and\u00a0c<\/em>\u00a0of the respiratory chain as well as molecular oxygen. The most important reaction requiring ascorbate as a cofactor is the hydroxylation of proline residues in collagen. Vitamin C is, therefore, required for the maintenance of normal connective tissue as well as for wound healing since synthesis of connective tissue is the first event in wound tissue remodeling. Vitamin C also is necessary for bone remodeling due to the presence of collagen in the organic matrix of bones.<\/p>\n}}
Ascorbic acid also serves as a reducing agent and an antioxidant. When functioning as an antioxidant ascorbic acid itself becomes oxidized to semidehydroascorbate and then dehydroascorbate. Semidehydroascorbate is reconverted to ascorbate in the cytosol by cytochrome\u00a0b_{5<\/sub><\/em>\u00a0reductase and thioredoxin reductase in reactions involving NADH and NADPH, respectively. Dehydroascorbate, the fully oxidized form of vitamin C, is reduced spontaneously by glutathione, as well as enzymatically in reactions using glutathione or NADPH.<\/p>\n}
Several other metabolic reactions require vitamin C as a cofactor. These include the catabolism of tyrosine and the synthesis of epinephrine from tyrosine and the synthesis of the bile acids. It is also believed that vitamin C is involved in the process of steroidogenesis since the adrenal cortex contains high levels of vitamin C which are depleted upon adrenocorticotropic hormone (ACTH) stimulation of the gland.<\/p>\n
Deficiency in vitamin C leads to the disease\u00a0scurvy<\/strong>\u00a0due to the role of the vitamin in the post-translational modification of collagens. Scurvy is characterized by easily bruised skin, muscle fatigue, soft swollen gums, decreased wound healing and hemorrhaging, osteoporosis, and anemia. Vitamin C is readily absorbed and so the primary cause of vitamin C deficiency is poor diet and\/or an increased requirement. The primary physiological state leading to an increased requirement for vitamin C is severe stress (or trauma). This is due to a rapid depletion in the adrenal stores of the vitamin. The reason for the decrease in adrenal vitamin C levels is unclear but may be due either to redistribution of the vitamin to areas that need it or an overall increased utilization.<\/p>\n
Inefficient intake of vitamin C has also been associated with a number of conditions, such as high blood pressure, gallbladder disease, stroke, some cancers, and atherosclerosis (plaque in blood vessels that can lead to heart attack and stroke). Sufficient vitamin C in the diet may help reduce the risk of developing some of these conditions, however, the evidence that taking vitamin C supplements will help or prevent any of these conditions is still lacking.<\/p>\n
The amount of vitamin C that is recommended to consume each day (the RDA) depends upon the age and sex of the individual. Infants less than 1 year old should get 50 milligrams (mg) per day. children 1\u20133 years old need 15mg, 4\u20138 years old need 25mg, and 9\u201313 years old need 45mg. Adolescent girls should get 65mg per day and adolescent boys should get 75mg per day. Adult males need 90mg per day and adult women should get 75mg per day. Women who are breastfeeding should increase their intake to at least 120mg per day. Individuals who smoke should increase their daily intake by at least 35mg since smoking depletes vitamin C levels. The recommended daily intake of vitamin C to prevent conditions such as the cardiovascular disorders indicated above is reported to be between 500mg and 1000mg.<\/p>\n
Excellent sources of vitamin C are fruits and vegetables such as oranges, watermelon, papaya, grapefruit, cantaloupe, strawberries, raspberries, blueberries, cranberries, pineapple, kiwi, mango, green peppers, broccoli, turnip greens, spinach, red and green peppers, canned and fresh tomatoes, potatoes, Brussels sprouts, cauliflower, and cabbage. Citrus juices or juices fortified with vitamin C are also excellent sources of the vitamin.<\/p>\n
Vitamin C is sensitive to light, air, and heat, so the most vitamin C is available in fruits and vegetables that are eaten raw or lightly cooked. Natural or synthetic vitamin C can be found in a variety of forms. Tablets, capsules, and chewables are probably the most popular forms, but vitamin C also comes in powdered crystalline, effervescent, and liquid forms. An esterified form of vitamin C is also available, which may be easier on the stomach for those who are prone to heartburn. The best way to take vitamin C supplements is 2\u20133 times per day, with meals, depending on the dosage.<\/p>\n<\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"
Vitamin C VITAMINS- VIT C\u00a0REVIEW 2-Oxo-L-threo-hexono-1,4-lactone-2,3-enediol or (R)-3,4-dihydroxy-5-((S)- 1,2-dihydroxyethyl)furan-2(5H)-one James Lind, a British Royal Navy surgeon who, in 1747, identified that a quality in fruit prevented the disease of scurvy in what was the first\u00a0recorded controlled experiment. The need to include fresh plant food or raw animal flesh in the diet to prevent disease… Continue reading VITAMIN C<\/span><\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[33,37],"tags":[39,38],"_links":{"self":[{"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/posts\/798"}],"collection":[{"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/comments?post=798"}],"version-history":[{"count":4,"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/posts\/798\/revisions"}],"predecessor-version":[{"id":801,"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/posts\/798\/revisions\/801"}],"wp:attachment":[{"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/media?parent=798"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/categories?post=798"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/amcrasto.theeurekamoments.com\/wp-json\/wp\/v2\/tags?post=798"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}