Purine
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| Names | |
|---|---|
| IUPAC name
9H-purine
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| Identifiers | |
120-73-0  |
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| ChEBI | CHEBI:17258 |
| ChEMBL | ChEMBL302239 |
| ChemSpider | 1015 |
| Jmol 3D model | Interactive image |
| KEGG | C15587 |
| MeSH | Purine |
| PubChem | 1044 |
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| Properties | |
| C5H4N4 | |
| Molar mass | 120.12 g·mol−1 |
| Melting point | 214 °C (417 °F; 487 K) |
| Vapor pressure | {{{value}}} |
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Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
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| Infobox references | |
A purine is a heterocyclic aromatic organic compound. It consists of a pyrimidine ring fused to an imidazole ring. Purines, which include substituted purines and their tautomers, are the most widely occurring nitrogen-containing heterocycle in nature.[1]
Purines and pyrimidines make up the two groups of nitrogenous bases, including the two groups of nucleotide bases. Two of the four deoxyribonucleotides and two of the four ribonucleotides, the respective building-blocks of deoxyribonucleic acid - DNA, and ribonucleic acid - RNA, are purines.
Contents
Notable purines
There are many naturally occurring purines. Two of the five bases in nucleic acids, adenine (2) and guanine (3), are purines. In DNA, these bases form hydrogen bonds with their complementary pyrimidines thymine and cytosine, respectively. This is called complementary base pairing. In RNA, the complement of adenine is uracil instead of thymine.
Other notable purines are hypoxanthine (4), xanthine (5), theobromine (6), caffeine (7), uric acid (8) and isoguanine (9).
Functions
Aside from the crucial roles of purines (adenine and guanine) in DNA and RNA, purines are also significant components in a number of other important biomolecules, such as ATP, GTP, cyclic AMP, NADH, and coenzyme A. Purine (1) itself, has not been found in nature, but it can be produced by organic synthesis.
They may also function directly as neurotransmitters, acting upon purinergic receptors. Adenosine activates adenosine receptors.
History
The word purine (pure urine)[2] was coined by the German chemist Emil Fischer in 1884. He synthesized it for the first time in 1899.[3] The starting material for the reaction sequence was uric acid (8), which had been isolated from kidney stones by Scheele in 1776.[4] Uric acid (8) was reacted with PCl5 to give 2,6,8-trichloropurine (10), which was converted with HI and PH4I to give 2,6-diiodopurine (11). The product was reduced to purine (1) using zinc-dust.
Metabolism
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Many organisms have metabolic pathways to synthesize and break down purines.
Purines are biologically synthesized as nucleosides (bases attached to ribose).
Accumulation of modified purine nucleotides is defective to various cellular processes, especially those involving DNA and RNA. To be viable, organisms possess a number of (deoxy)purine phosphohydrolases, which hydrolyze these purine derivatives removing them from the active NTP and dNTP pools. Deamination of purine bases can result in accumulation of such nucleotides as ITP, dITP, XTP and dXTP.[5]
Defects in enzymes that control purine production and breakdown can severely alter a cell’s DNA sequences, which may explain why people who carry certain genetic variants of purine metabolic enzymes have a higher risk for some types of cancer.
Higher levels of meat and seafood consumption are associated with an increased risk of gout, whereas a higher level of consumption of dairy products is associated with a decreased risk. Moderate intake of purine-rich vegetables or protein is not associated with an increased risk of gout.[6][7]
Purine Sources
Purines are found in high concentration in meat and meat products, especially internal organs such as liver and kidney. In general, plant-based diets are low in purines.[8] Examples of high-purine sources include: sweetbreads, anchovies, sardines, liver, beef kidneys, brains, meat extracts (e.g., Oxo, Bovril), herring, mackerel, scallops, game meats, beer (from the yeast) and gravy.
A moderate amount of purine is also contained in beef, pork, poultry, other fish and seafood, asparagus, cauliflower, spinach, mushrooms, green peas, lentils, dried peas, beans, oatmeal, wheat bran, wheat germ, and haws.[9]
Laboratory synthesis
In addition to in vivo synthesis of purines in purine metabolism, purine can also be created artificially.
Purine (1) is obtained in good yield when formamide is heated in an open vessel at 170 °C for 28 hours.[10]
This remarkable reaction and others like it have been discussed in the context of the origin of life.[11]
Oro, Orgel and co-workers have shown that four molecules of HCN tetramerize to form diaminomaleodinitrile (12), which can be converted into almost all natural-occurring purines.[12][13][14][15][16] For example, five molecules of HCN condense in an exothermic reaction to make Adenine, especially in the presence of ammonia.
The Traube purine synthesis (1900) is a classic reaction (named after Wilhelm Traube) between an amine-substituted pyrimidine and formic acid.[17]
See also
- Pyrimidine
- Simple aromatic rings
- Transition
- Transversion
- Gout, a disorder of purine metabolism
References
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- ↑ NEJM - Purine-Rich Foods, Dairy and Protein Intake, and the Risk of Gout in Men
- ↑ [1], USDA on bone health
- ↑ http://www.dietaryfiberfood.com/purine-food.php
- ↑ Gout Diet: Limit High Purine Foods
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
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- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Houben-Weyl, Vol . E5, p. 1547[full citation needed]
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