Harnsäure/en: Unterschied zwischen den Versionen
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| − | 2,6,8- | + | 2,6,8-Trioxypurine, an acid soluble in alkalis but difficult to dissolve in water. It is the metabolic end product [[Purine|purin]] of nucleic acids containing nucleic acids, is excreted in humans in small, in birds and reptiles in large quantities with the urine. Under certain metabolic conditions, uric acid can lead to the formation of kidney and bladder stones; in [gout] there is a pathological deposition of uric acid in tissues, including in joint cartilage. |
| − | + | Uric acid is the final product of [[Purinstoffwechsel/en|purine metabolism]]. Purines are formed by the degradation of purine nucleotides (adenine and guanine) from DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). In addition, elimination also takes place via saliva and intestinal secretion. The daily excretion amounts to up to 1g. As a weak acid, uric acid is only poorly soluble in protonated form (e.g. in water), whereas it is well soluble in alkaline media. If the body is over-acidified, the uric acid is therefore less soluble. Under certain conditions there is an increased production of uric acid; if the solubility product is exceeded in the course of excretion, the uric acid can precipitate and be deposited in the urinary tract, in the bloodstream or in bradytrophic (tissue with slow metabolism) tissues. This hyperuricemia can result in uroliths, gout or uric acid infarctions. | |
https://de.wikipedia.org/wiki/Harns%C3%A4ure <sub>([https://de.wikipedia.org/wiki/Wikipedia:Lizenzbestimmungen_Commons_Attribution-ShareAlike_3.0_Unported Wikipedia CC-by-sa-3.0])</sub> | https://de.wikipedia.org/wiki/Harns%C3%A4ure <sub>([https://de.wikipedia.org/wiki/Wikipedia:Lizenzbestimmungen_Commons_Attribution-ShareAlike_3.0_Unported Wikipedia CC-by-sa-3.0])</sub> | ||
Aktuelle Version vom 22. Mai 2019, 00:25 Uhr
2,6,8-Trioxypurine, an acid soluble in alkalis but difficult to dissolve in water. It is the metabolic end product purin of nucleic acids containing nucleic acids, is excreted in humans in small, in birds and reptiles in large quantities with the urine. Under certain metabolic conditions, uric acid can lead to the formation of kidney and bladder stones; in [gout] there is a pathological deposition of uric acid in tissues, including in joint cartilage.
Uric acid is the final product of purine metabolism. Purines are formed by the degradation of purine nucleotides (adenine and guanine) from DNA (deoxyribonucleic acid) and RNA (ribonucleic acid). In addition, elimination also takes place via saliva and intestinal secretion. The daily excretion amounts to up to 1g. As a weak acid, uric acid is only poorly soluble in protonated form (e.g. in water), whereas it is well soluble in alkaline media. If the body is over-acidified, the uric acid is therefore less soluble. Under certain conditions there is an increased production of uric acid; if the solubility product is exceeded in the course of excretion, the uric acid can precipitate and be deposited in the urinary tract, in the bloodstream or in bradytrophic (tissue with slow metabolism) tissues. This hyperuricemia can result in uroliths, gout or uric acid infarctions.
https://de.wikipedia.org/wiki/Harns%C3%A4ure (Wikipedia CC-by-sa-3.0)