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22-AUGUST-2008 06:13:22 - Ascorbic acid This article deals with the molecular aspects of ascorbic acid. For information about its purpose in nutrition, see Vitamin C. Ascorbic acid IUPAC name R-3,4-dihydroxy-5-S- 1,2-dihydroxyethylfuran-25H-one Identifiers CAS number 50-81-7 PubChem 5785 EINECS number 200-066-2 InChI 1/C6H8O6/c7-1-285-394 1061112-5/h2,5,7-8,10- 11H,1H2/t2-,5+/m0/s1 Properties Molecular formula C6H8O6 Molar mass 176.1241 g/mol Appearance White or light yellow solid Density 1.65 g/cm³ Melting point 190-192 °C, 463-465 K, 374-378 °F decomposes Solubility in water 33g/100ml Solubility in ethanol 2g/100ml Solubility in glycerol 1g/100ml Solubility in propylene glycol 5g/100ml Solubility in diethyl ether, chloroform, benzene, petroleum ether, oils, fats, fat solvents insoluble Acidity pKa 4.17 first, 11.6 second Hazards MSDS ScienceLab.com LD50 11.9 g/kg oral, rat1 Except where noted otherwise, data are given for materials in their standard state at 25 °C, 100 kPa Infobox references Ascorbic acid is a sugar acid with antioxidant properties. Its appearance is white to light-yellow crystals or powder. It is water-soluble. The L-enantiomer of ascorbic acid is commonly known as vitamin C. The name is derived from the alpha privative a- meaning no and scorbuticus scurvy, the disease caused by a deficiency of vitamin C. In 1937 the Nobel Prize for chemistry was awarded to Walter Haworth for his work in determining the structure of ascorbic acid shared with Paul Karrer, who received his award for work on vitamins, and the prize for Physiology or Medicine that year went to Albert Szent-Györgyi for his studies of the biological functions of L-ascorbic acid. At the time of its discovery in the 1920s, it was called hexuronic acid by some researchers.2 Contents 1 Chemistry 1.1 Acidity 1.2 Tautomerism 1.3 Determination 2 Uses 3 Antioxidant mechanism 4 Ascorbic acid synthesis in non-primates 5 See also 6 References 7 External links Chemistry Acidity Ascorbic acid, the formula of which is C6H8O6, behaves as a vinylogous carboxylic acid, wherein the double bond vinyl transmits electron pairs between the hydroxyl and the carbonyl. There are two resonance structures for the deprotonated form, differing in the position of the double bond. Another way to look at ascorbic acid is to consider it as an enol. The deprotonated form is an enolate, which is usually strongly basic. However, the adjacent double bond stabilizes the deprotonated form. Movement of electron pairs in deprotonation Movement of electron pairs in deprotonation Tautomerism Nucleophilic attack of ascorbic enol on proton to give 1,3-diketone Nucleophilic attack of ascorbic enol on proton to give 1,3-diketone Ascorbic acid also rapidly interconverts into two unstable diketone tautomers by proton transfer, although it is the most stable in the enol form. The proton of the enol is lost, and reacquired by electrons from the double bond, to produce a diketone. This is an enol reaction. There are two possible forms: 1,2-diketone and 1,3-diketone. Determination The concentration of a solution of ascorbic acid can be determined in many ways, the most common ways involving titration with an oxidizing agent. DCPIP A commonly-used oxidising agent is the dye 2,6-dichlorophenol-indophenol, or DCPIP for short. The blue dye is run into the ascorbic acid solution until a faint pink colour persists for 15 seconds. Iodine Another method involves using iodine and a starch indicator, wherein iodine reacts with ascorbic acid, and, when all the ascorbic acid has reacted, the iodine is then in excess, forming a blue-black complex with the starch indicator. This indicates the end-point of the titration. As an alternative, ascorbic acid can be reacted with iodine in excess, followed by back titration with sodium thiosulfate while using starch as an indicator. Iodate and iodine The above method involving iodine requires making up and standardising the iodine solution. One way around this is to generate the iodine in the presence of the ascorbic acid by the reaction of iodate and iodide ion in acid solution. N-Bromosuccinimide A much-less-common oxidising agent is N-bromosuccinimide, NBS. In this titration, the NBS oxidises the ascorbic acid in the presence of potassium iodide and starch. When the NBS is in excess i.e., the reaction is complete, the NBS liberates the iodine from the potassium iodide, which then forms the blue/black complex with starch, indicating the end-point of the titration. Uses Top: ascorbic acid reduced form of Vitamin C Bottom: dehydroascorbic acid oxidized form of Vitamin C Ascorbic acid is easily oxidized and so is used as a reductant in photographic developer solutions among others and as a preservative. Exposure to oxygen, metals, light, and heat destroys ascorbic acid, so it must be stored in a dark, cold, and non-metallic container. The L-enantiomer of ascorbic acid is also known as vitamin C. The name ascorbic comes from its property of preventing and curing scurvy. Primates, including humans, and a few other species in all divisions of the animal kingdom, notably the guinea pig, have lost the ability to synthesize ascorbic acid, and must obtain it in their food. Ascorbic acid and its sodium, potassium, and calcium salts are commonly used as antioxidant food additives. These compounds are water-soluble and thus cannot protect fats from oxidation: For this purpose, the fat-soluble esters of ascorbic acid with long-chain fatty acids ascorbyl palmitate or ascorbyl stearate can be used as food antioxidants. Eighty percent of the world's supply of ascorbic acid is produced in China. 3 The relevant European food additive E numbers are: E300 ascorbic acid, E301 sodium ascorbate, E302 calcium ascorbate, E303 potassium ascorbate, E304 fatty acid esters of ascorbic acid i ascorbyl palmitate ii ascorbyl stearate. It can be added to water that has been treated with iodine to make it potable, neutralizing the unpleasant iodine taste, and increasing the health benefits of drinking water, although increasing the chance of tooth decay.citation needed In plastic manufacturing, ascorbic acid can be used to assemble molecular chains more quickly and with less waste than traditional synthesis methods.4 Antioxidant mechanism Ascorbate acts as an antioxidant by being available for energetically favourable oxidation. Many oxidants typically, reactive oxygen species such as the hydroxyl radical formed from hydrogen peroxide, contain an unpaired electron, and, thus, are highly reactive and damaging to humans and plants at the molecular level. This is due to their interaction with nucleic acid, proteins, and lipids. Reactive oxygen species oxidize take electrons from ascorbate first to monodehydroascorbate and then dehydroascorbate. The reactive oxygen species are reduced to water, while the oxidized forms of ascorbate are relatively stable and unreactive, and do not cause cellular damage. Ascorbic acid synthesis in non-primates Ascorbic acid is found in plants, animals, and single-cell organisms.5 All living animals either make it, eat it, or die from scurvy due to lack of it. Reptiles and older orders of birds make ascorbic acid in their kidneys. Recent orders of birds and most mammals make ascorbic acid in their livers where the enzyme L-gulonolactone oxidase is required to convert glucose to ascorbic acid.6 Humans, guinea pigs, and some other primates are not able to make L-gulonolactone oxidase because of a genetic defect and are therefore unable to make ascorbic acid in their livers. This genetic mutation occurred about 63 million years ago 7 This would have had lethal consequences for the mutated primate were it not for the fact that it occurred to an arboreal animal living in a tropical environment where plenty of foodstuffs containing ascorbic acid were available throughout the year. Although ascorbic acid is a vital food nutrient for humans and is therefore termed a vitamin, it is a natural liver metabolite in most other animals. See also Vitamin C: a discussion of the medical properties of ascorbic acid as well as its historic and social role Dehydroascorbic acid, an oxidized form of ascorbic acid. Erythorbic acid: a diastereomer of ascorbic acid. Mineral ascorbates: salts of ascorbic acid D-erythroascorbic acid: yeasts do not make vitamin C L-ascorbic acid, but a similar antioxidant known as D-erythroascorbic acid References Clayden, Greeves, Warren, Wothers. Organic Chemistry. Oxford University Press 2001, ISBN 0-19-850346-6. Derek Denby May 1996. Vitamin C. Chemistry Review 5 5. University of York. Vitamin C: Its Chemistry and Biochemistry Michael B. Davies, John Austin, David A. Partridge. Royal Society of Chemistry. ISBN 0-85186-333-7 Food: The Chemistry of Its Components; Third ion T.P. Coultate. Royal Society of Chemistry. ISBN 0-85404-513-9 ^ Safety MSDS data for ascorbic acid. Oxford University 2005-10-09. Retrieved on 2007-02-21. ^ Joseph Louis Svirbelf, Albert Szent-Gyorgyi The Chemical Nature Of Vitamin C, April 25, 1932. Part of the National Library of Medicine collection. Accessed January 2007 ^ Washington Post, Tainted Chinese Imports Common, published May 20, 2007 ^ Newswise 2007. Vitamin C, water have benefits for plastic manufacturing, Reliable Plant Magazine. Retrieved on 2007-06-25. ^ The Natural History of Ascorbic Acid in the Evolution of Mammals and Primates, Irwin Stone, 1972 ^ Stone ^ Stone External links Safety data from the University of Oxford. International Programme on Chemical Safety The Effect of Ascorbic Acid on Bleaching Coral The Effect of Ascorbic Acid on Fragmented Coral v d e Vitamins A11 Fat soluble A: Retinol - Beta-carotene - Tretinoin - Alpha-carotene D3: 7-Dehydrocholesterol → Previtamin D3 → Cholecalciferol D3 → Calcidiol → Calcitriol active form → Calcitroic acid D2: Ergosterol → Ergocalciferol D2 D analogues: Dihydrotachysterol - Calcipotriol - Tacalcitol E: Tocopherol - Tocotrienol K: Naphthoquinone - Phylloquinone/K1 - Menatetrenone/K2 Water soluble: B vitamins B1 Thiamine - B2 Riboflavin - B3 Niacin, Nicotinamide - B5 Pantothenic acid, Dexpanthenol, Pantethine - B6 Pyridoxine, Pyridoxal phosphate, Pyridoxamine - B7 Biotin - B9 Folic acid, Folinic acid - B12 Cyanocobalamin, Hydroxocobalamin, Methylcobalamin, Cobamamide Water soluble: other C Ascorbic acid - Choline see also enzyme cofactors v d e Enzyme cofactors Coenzymes vitamins: NAD+ B3 | NADP+ B3 | Coenzyme A B5 | THF / H4F B9, DHF, MTHF | Ascorbic acid C | Menaquinone K | Coenzyme F420 non-vitamins: ATP | CTP | SAM | PAPS | GSH | Coenzyme B | Coenzyme M | Coenzyme Q | Methanofuran | BH4 | H4MPT Organic prosthetic groups vitamins: TPP / ThDP B1 | FMN, FAD B2 | PLP / P5P B6 | Biotin B7 | Methylcobalamin, Cobamamide B12 non-vitamins: Haem / Heme | Lipoic acid | Molybdopterin | PQQ Metal prosthetic groups Ca2+ | Cu2+ | Fe2+, Fe3+ | Mg2+ | Mn2+ | Mo | Ni2+ | Se | Zn2+ Major families of biochemicals Saccharides | Carbohydrates | Glycosides | | Amino acids | Peptides | Proteins | Glycoproteins | | Lipids | Terpenes | Steroids | Carotenoids Alkaloids | Nucleobases | Nucleic acids | | Enzyme cofactors | Flavonoids | Polyketides | Tetrapyrroles Retrieved from http://en..org/wiki/Ascorbic_acid Categories: Organic acids | Antioxidants | Dietary antioxidants | CoenzymesHidden categories: All articles with statements | Articles with statements since July 2008 Views Article Discussion this page History Personal tools Log in / create account Navigation Main page Contents Featured content Current events Random article Search Go Search Interaction Community portal Recent changes Contact Donate to Help Toolbox What links here Related changes Upload file Special pages Printable version Permanent link Cite this page Languages Català Dansk Deutsch Eesti Español Esperanto Ù?ارسی Français Galego í•œêµì–´ Italiano עברית Lietuvių Nederlands 日本語 Polski Português Română РуÑ?Ñ?кий Simple English SlovenÄ?ina Suomi Svenska Türkçe ä¸æ–‡ This page was last modified on 16 July 2008, at 23:45. of the GNU Free Documentation License. ® , Inc., a U.S.
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