@prefix rdf: . @prefix dbr: . @prefix yago: . dbr:Eicosanoid rdf:type yago:Secretion105404728 , yago:WikicatNeurotransmitters , yago:Matter100020827 , yago:Relation100031921 , yago:Part113809207 , yago:Neurochemical114807410 , yago:Hormone105407119 , yago:Lipid114938907 , yago:Substance100019613 , yago:Molecule114682133 , yago:Chemical114806838 , yago:Abstraction100002137 , yago:LiquidBodySubstance105397468 , yago:PhysicalEntity100001930 , yago:Material114580897 , yago:Macromolecule114944888 , yago:Unit109465459 , yago:OrganicCompound114727670 , yago:Thing100002452 , yago:BodySubstance105263850 . @prefix owl: . dbr:Eicosanoid rdf:type owl:Thing , yago:WikicatHormones , yago:WikicatLipids , yago:Compound114818238 , yago:Terpene115068635 , yago:Hydrocarbon114911057 . @prefix dbo: . dbr:Eicosanoid rdf:type dbo:Protein , yago:WikicatTerpenesAndTerpenoids , yago:Neurotransmitter114807558 . @prefix rdfs: . dbr:Eicosanoid rdfs:label "Eikosanoide"@eu , "\u0625\u064A\u0643\u0648\u0632\u0627\u0646\u0648\u064A\u062F"@ar , "\u30A8\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9"@ja , "Eicosano\u00EFde"@fr , "\u7C7B\u82B1\u751F\u9178"@zh , "\uC5D0\uC774\uCF54\uC0AC\uB178\uC774\uB4DC"@ko , "Eikosanoid"@cs , "Eicosano\u00EFde"@nl , "Eicosanoidi"@it , "Eikosanoid"@in , "Eicosanoid"@en , "Eicosanoide"@de , "Eicosanoide"@es , "Icosanoide"@ca , "Eikosanoider"@sv , "Eikozanoidy"@pl , "Eicosanoide"@pt , "\u042D\u0439\u043A\u043E\u0437\u0430\u043D\u043E\u0438\u0434\u044B"@ru ; rdfs:comment "Eikosanoid adalah molekul pensinyalan yang dibuat oleh oksidasi enzimatik dan non-enzimatik asam arakidonat atau asam lemak tak jenuh ganda (PUFA) lainnya, yang mirip dengan asam arakidonat, dengan panjang 20 unit karbon. Eikosanoid adalah sub-kategori oksilipin, yaitu asam lemak teroksidasi dari unit karbon yang beragam panjangnya, dan dibedakan dari oksilipin lain dengan kepentingannya yang luar biasa sebagai molekul pensinyalan sel. Fungsi eikosanoid dalam sistem fisiologis yang beragam dan proses patologis seperti: mendorong atau menghambat peradangan, alergi, demam, dan respons imun lainnya; mengatur aborsi kehamilan dan persalinan normal; berkontribusi terhadap persepsi nyeri; mengatur pertumbuhan sel; mengendalikan tekanan darah; dan memodulasi aliran regional darah ke jaringan. Dal"@in , "\u7C7B\u82B1\u751F\u9178\uFF08\u82F1\u8A9E\uFF1AEicosanoid\uFF0C\u53C8\u79F0\u4E3A\u7C7B\u4E8C\u5341\u70F7\u9178\u6216\u662F\u985E\u82B1\u751F\u6CB9\u9178\uFF09\u662F\u7531\u542B\u4E8C\u5341\u4E2A\u78B3\u7684\u591A\u5143\u4E0D\u9971\u548C\u8102\u80AA\u9178\u884D\u751F\u800C\u6765\u7684\u8102\u7C7B\u4E2D\u7684\u4E00\u4E2A\u5BB6\u65CF\uFF0C\u8FD9\u7C7B\u5316\u5408\u7269\u90FD\u542B\u6709\u4E8C\u5341\u4E2A\u78B3\u539F\u5B50\uFF0C\u56E0\u6B64\u53C8\u88AB\u79F0\u4E3A\u201C\u7C7B\u4E8C\u5341\u70F7\u9178\u201D\u3002\u5176\u4E2D\u5305\u62EC\u51E0\u7C7B\u5177\u6709\u591A\u79CD\u751F\u7269\u6D3B\u6027\u7684\u5206\u5B50\uFF1A\u524D\u5217\u817A\u7D20\uFF08prostaglandins\uFF09\uFF08\u4EE5\u53CA\u524D\u5217\u73AF\u7D20\uFF09\u3001\u51DD\u8840\u5641\u70F7\uFF08\u6216\u7A31\u8840\u6813\u7D20\uFF0Cthromboxanes\uFF09\u3001\u767D\u4E09\u70EF\uFF08leukotrienes\uFF09\u3001\u8102\u6C27\u7D20\uFF08lipoxins\uFF09\u3001\u7DE9\u89E3\u56E0\u5B50\uFF08resolvins\uFF09\u4EE5\u53CA eoxins\u7B49\u3002\u5176\u524D\u4F53\u4E3B\u8981\u662F\u82B1\u751F\u56DB\u70EF\u9178\uFF0C\u4E5F\u6709\u5C11\u91CF\u7684\u03B3-\u9AD8\u4E9A\u9EBB\u6CB9\u9178\u4E0E\u4E8C\u5341\u78B3\u4E94\u70EF\u9178\u3002\u666E\u904D\u5B58\u5728\u4E8E\u4EBA\u548C\u54FA\u4E73\u52A8\u7269\u7684\u7EC4\u7EC7\u7EC6\u80DE\u4E2D\uFF0C\u53C2\u4E0E\u5E73\u6ED1\u808C\u7684\u6536\u7F29\u6216\u8212\u5F20\u3001\u8840\u5C0F\u677F\u805A\u96C6\u53CA\u708E\u75C7\u53CD\u5E94\u3002 \u5728\u9019\u8A31\u591A\u7A2E\u985E\u82B1\u751F\u9178\u7684\u5BB6\u65CF\u4E2D\uFF0C\u5C0D\u65BC\u6BCF\u4E00\u500B\u4E9E\u5BB6\u65CF\uFF0C\u6709\u53EF\u80FD\u5177\u6709\u81F3\u5C115\u500B\u7368\u7ACB\u7CFB\u5217\u7684\u4EE3\u8B1D\u7269\uFF0C\u5169\u500B\u7CFB\u5217\u5F9E\u03C9-6 PUFA \u884D\u751F\u51FA\u4F86\uFF0C\u5206\u5225\u662F\u82B1\u751F\u56DB\u70EF\u9178\uFF08Arachidonic acid\uFF09\u548C\uFF08dihomo-gamma-linolenic acids\uFF09\uFF0C\u4E00\u500B\u7CFB\u5217\u5F9E\u03C9-3 PUFA \u884D\u751F\u51FA\u4F86\uFF0C\u5373\u70BA\u4E8C\u5341\u78B3\u4E94\u70EF\u9178\uFF08eicosapentaenoic acid\uFF0C\u7C21\u7A31EPA\uFF09\uFF0C\u4E00\u500B\u7CFB\u5217\u5F9E\u03C9-9 PUFA \u884D\u751F\u51FA\u4F86\uFF0C\u5373\u70BA\uFF08mead acid\uFF09\u3002"@zh , "Eikosanoideak lipidoen taldeko substantziak dira, 20 karbonotako gantz-azidoak oxidatuz eratzen direnak. Zelulen arteko komunikazio bide konplexuetan hartzen dute parte."@eu , "En bioqu\u00EDmica, icosanoide \u00E9s el nom general d'un grup de mol\u00E8cules de constituci\u00F3 lip\u00EDdica obtingudes de l'oxigenaci\u00F3 dels \u00E0cids grassos essencials de 20 carbonis tipus omega-3 i omega-6. Compleixen \u00E0mplies funcions com mediadors per al sistema nervi\u00F3s central, la inflamaci\u00F3 i la resposta immunit\u00E0ria tant de vertebrats com invertebrats. Tots els icosanoides s\u00F3n mol\u00E8cules de 20 \u00E0toms de carboni i estan agrupats en prostaglandines, tromboxans, , i certs precursors dels leucotriens. Constitueixen les mol\u00E8cules que intervenen en les xarxes de comunicaci\u00F3 cel\u00B7lular m\u00E9s complexes de l'organisme animal, incloent l'\u00E9sser hum\u00E0."@ca , "Les eicosano\u00EFdes (du grec ancien \u03B5\u1F34\u03BA\u03BF\u03C3\u03B9 / e\u00EDkosi , signifiant \u00AB vingt \u00BB) ou icosano\u00EFdes constituent une vaste famille de d\u00E9riv\u00E9s d'oxydation d'acides gras polyinsatur\u00E9s \u00E0 20 atomes decarbone comme l'acide arachidonique (C20:4 (\u03C9-6)). Ils peuvent \u00EAtre cycliques ou lin\u00E9aires (leucotri\u00E8nes). On distingue deux types d\u2019eicosano\u00EFdes : \n* les leucotri\u00E8nes (LT) ; \n* les prostano\u00EFdes, parmi lesquelles : \n* les prostaglandines (PG), \n* les thromboxanes (TX), \n* les prostacyclines (PGI)."@fr , "Em bioqu\u00EDmica, chamam-se eicosanoides as mol\u00E9culas derivadas de \u00E1cidos graxos com 20 carbonos das fam\u00EDlias \u00F4mega-3 e \u00F4mega 6. A maioria dos eicosanoides mais relevantes deriva do \u00E1cido araquid\u00F4nico atrav\u00E9s da via metab\u00F3lica da cascata do \u00E1cido araquid\u00F4nico. Elas exercem um complexo controle sobre diversos sistemas do organismo humano, especialmente na inflama\u00E7\u00E3o, na imunidade, e como mensageiros do sistema nervoso central. As redes de pesca de controles biol\u00F3gicos que dependem dos eicosanoides est\u00E3o entre as mais complexas do corpo humano."@pt , "Eicosanoids are signaling molecules made by the enzymatic or non-enzymatic oxidation of arachidonic acid or other polyunsaturated fatty acids (PUFAs) that are, similar to arachidonic acid, around 20 carbon units in length. Eicosanoids are a sub-category of oxylipins, i.e. oxidized fatty acids of diverse carbon units in length, and are distinguished from other oxylipins by their overwhelming importance as cell signaling molecules. Eicosanoids function in diverse physiological systems and pathological processes such as: mounting or inhibiting inflammation, allergy, fever and other immune responses; regulating the abortion of pregnancy and normal childbirth; contributing to the perception of pain; regulating cell growth; controlling blood pressure; and modulating the regional flow of blood to"@en , "\u30A8\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9 (eicosanoid) \u306F\u3001\u30A8\u30A4\u30B3\u30B5\u30F3\u9178\uFF08\u30A2\u30E9\u30AD\u30C9\u30F3\u9178\uFF09\u3092\u9AA8\u683C\u306B\u6301\u3064\u5316\u5408\u7269\u3001\u306A\u3044\u3057\u305D\u306E\u8A98\u5C0E\u4F53\u306E\u7DCF\u79F0\u3002\u4E3B\u3068\u3057\u3066\u30AA\u30FC\u30C8\u30AF\u30EA\u30F3\u3084\u30D1\u30E9\u30AF\u30EA\u30F3\u3068\u3057\u3066\u50CD\u304F\u751F\u7406\u6D3B\u6027\u7269\u8CEA\u3067\u3042\u308B\u3002IUPAC/IUBMB\u3067\u306F\u30A8\u30A4\u30B3\u30B5\u30F3\u306E\u540D\u79F0\u304C\u30A4\u30B3\u30B5\u30F3\u306B\u5909\u66F4\u3055\u308C\u305F\u3053\u3068\u304B\u3089\u3001\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9\u306E\u540D\u79F0\u3092\u63A8\u5968\u3057\u3066\u3044\u308B\u3002\u51FA\u767A\u7269\u8CEA\u306B\u306F\u30A2\u30E9\u30AD\u30C9\u30F3\u9178\u3084\u30A8\u30A4\u30B3\u30B5\u30DA\u30F3\u30BF\u30A8\u30F3\u9178\u3001\u03B3-\u30EA\u30CE\u30EC\u30F3\u9178\u304C\u3042\u308B\u304C\u3001\u30A2\u30E9\u30AD\u30C9\u30F3\u9178\u3092\u5171\u901A\u306E\u51FA\u767A\u7269\u8CEA\u3068\u3059\u308B\u3053\u3068\u304C\u591A\u3044\u306E\u3067\u30A8\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9\u306E\u751F\u5408\u6210\u7CFB\u3092\u30A2\u30E9\u30AD\u30C9\u30F3\u9178\u30AB\u30B9\u30B1\u30FC\u30C9\u3068\u547C\u3076\u3053\u3068\u304C\u591A\u3044\u3002 \u8A73\u7D30\u306F\u300C\u30A2\u30E9\u30AD\u30C9\u30F3\u9178\u30AB\u30B9\u30B1\u30FC\u30C9\u300D\u3092\u53C2\u7167 \u30A8\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9\u306B\u306F\u30D7\u30ED\u30B9\u30BF\u30B0\u30E9\u30F3\u30B8\u30F3\u3001\u30ED\u30A4\u30B3\u30C8\u30EA\u30A8\u30F3\u3084\u30C8\u30ED\u30F3\u30DC\u30AD\u30B5\u30F3\u306A\u3069\u304C\u542B\u307E\u308C\u308B\u304C\u3001\u7D30\u80DE\u306B\u3088\u3063\u3066\u3069\u308C\u304C\u3069\u306E\u7A0B\u5EA6\u767A\u73FE\u3059\u308B\u304B\u306F\u7570\u306A\u308B\u3002\u30A8\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9\u751F\u5408\u6210\u306B\u5FC5\u8981\u306A\u30A2\u30E9\u30AD\u30C9\u30F3\u9178\u306E\u539F\u6599\u3067\u3042\u308B\u4E0D\u98FD\u548C\u8102\u80AA\u9178\u3067\u5FC5\u9808\u8102\u80AA\u9178\u3067\u3042\u308B\u30EA\u30CE\u30FC\u30EB\u9178\u306A\u3069\u306E\u03C9-6\u8102\u80AA\u9178\u306F\u4EBA\u3092\u542B\u3080\u5F8C\u751F\u52D5\u7269\u3067\u5408\u6210\u3059\u308B\u3053\u3068\u304C\u3067\u304D\u306A\u3044\u306E\u3067\u3001\u3053\u308C\u3089\u306E\u52D5\u7269\u306F\u690D\u7269\u3084\u4ED6\u306E\u52D5\u7269\u304B\u3089\u5FC5\u9808\u8102\u80AA\u9178\u3092\u6442\u53D6\u3059\u308B\u5FC5\u8981\u304C\u3042\u308B\u3002\u30A8\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9\u306E\u5404\u5316\u5408\u7269\u306E\u7279\u9577\u3068\u3057\u3066\u3001\u30D7\u30ED\u30B9\u30BF\u30B0\u30E9\u30F3\u30B8\u30F3\u306F\u4E94\u54E1\u74B0\u3092\u6709\u3057\u3001\u4E8C\u91CD\u7D50\u5408\u30922\u3064\u3057\u304B\u6301\u305F\u306A\u3044\u306E\u306B\u5BFE\u3057\u3001\u30ED\u30A4\u30B3\u30C8\u30EA\u30A8\u30F3\u306F\u4E8C\u91CD\u7D50\u5408\u30924\u3064\u6301\u3061\u74B0\u69CB\u9020\u3092\u6301\u305F\u306A\u3044\u3001\u30C8\u30ED\u30F3\u30DC\u30AD\u30B5\u30F3\u306F\u9178\u7D20\u3092\u542B\u3080\u516D\u54E1\u74B0\uFF08\u30D4\u30E9\u30F3\uFF09\u3092\u9AA8\u683C\u306B\u6301\u3061\u4E8C\u91CD\u7D50\u5408\u30922\u3064\u6301\u3064\u3068\u3044\u3046\u306E\u304C\u3042\u308B\u3002"@ja , "Los eicosanoides o icosanoides son un grupo de mol\u00E9culas de car\u00E1cter lip\u00EDdico originadas de la oxidaci\u00F3n de los \u00E1cidos grasos esenciales de 20 carbonos tipo omega-3 y omega-6. Cumplen amplias funciones como mediadores para el sistema nervioso central, los eventos de la inflamaci\u00F3n y de la respuesta inmune tanto en vertebrados como en invertebrados."@es , "Eikozanoidy, ikozanoidy (gr. \u03B5\u1F34\u03BA\u03BF\u03C3\u03B9, eikosi = dwadzie\u015Bcia, czyli zawieraj\u0105ce 20 atom\u00F3w w\u0119gla) \u2013 grupa organicznych zwi\u0105zk\u00F3w chemicznych b\u0119d\u0105cych produktami przemian niezb\u0119dnych nienasyconych kwas\u00F3w t\u0142uszczowych (NNKT): \n* kwasu arachidonowego, \n* kwasu linolowego, \n* i kwasu \u03B1-linolenowego. Podzia\u0142 eikozanoid\u00F3w: \n* prostanoidy: \n* prostaglandyny (skr\u00F3t: PG) \n* prostacykliny (PGI) \n* tromboksany (TX) \n* leukotrieny (LT) \n* lipoksyny (LX) \n* COX-1 \u2013 cyklooksygenaza konstytutywna, \n* COX-2 \u2013 cyklooksygenaza indukowalna, jej aktywno\u015B\u0107 gwa\u0142townie wzrasta w stanach zapalnych,"@pl , "\u042D\u0439\u043A\u043E\u0437\u0430\u043D\u043E\u0438\u0434\u044B \u2014 \u043E\u043A\u0438\u0441\u043B\u0435\u043D\u043D\u044B\u0435 \u043F\u0440\u043E\u0438\u0437\u0432\u043E\u0434\u043D\u044B\u0435 \u043F\u043E\u043B\u0438\u043D\u0435\u043D\u0430\u0441\u044B\u0449\u0435\u043D\u043D\u044B\u0445 \u0436\u0438\u0440\u043D\u044B\u0445 \u043A\u0438\u0441\u043B\u043E\u0442, \u0441\u043E\u0434\u0435\u0440\u0436\u0430\u0449\u0438\u0445 20 \u0443\u0433\u043B\u0435\u0440\u043E\u0434\u043D\u044B\u0445 \u0430\u0442\u043E\u043C\u043E\u0432 (\u043E\u0442\u0441\u044E\u0434\u0430 \u0438\u0445 \u043D\u0430\u0437\u0432\u0430\u043D\u0438\u0435 \u00ABeicosa\u00BB, \u0447\u0442\u043E \u043F\u043E-\u0434\u0440\u0435\u0432\u043D\u0435\u0433\u0440\u0435\u0447\u0435\u0441\u043A\u0438 \u043E\u0437\u043D\u0430\u0447\u0430\u0435\u0442 \u00AB\u0434\u0432\u0430\u0434\u0446\u0430\u0442\u044C\u00BB), \u2014 \u0434\u0438\u0433\u043E\u043C\u043E-\u03B3-\u043B\u0438\u043D\u043E\u043B\u0435\u043D\u043E\u0432\u043E\u0439 (\u044D\u0439\u043A\u043E\u0437\u0430\u0442\u0440\u0438\u0435\u043D\u043E\u0432\u043E\u0439, \u042120:3), \u0430\u0440\u0430\u0445\u0438\u0434\u043E\u043D\u043E\u0432\u043E\u0439 (\u044D\u0439\u043A\u043E\u0437\u0430\u0442\u0435\u0442\u0440\u0430\u0435\u043D\u043E\u0432\u043E\u0439, \u042120:4), \u0442\u0438\u043C\u043D\u043E\u0434\u043E\u043D\u043E\u0432\u043E\u0439 (\u044D\u0439\u043A\u043E\u0437\u0430\u043F\u0435\u043D\u0442\u0430\u0435\u043D\u043E\u0432\u043E\u0439, \u042120:5). \u041F\u0438\u0449\u0435\u0432\u044B\u043C\u0438 \u0438\u0441\u0442\u043E\u0447\u043D\u0438\u043A\u0430\u043C\u0438 \u043F\u043E\u043B\u0438\u043D\u0435\u043D\u0430\u0441\u044B\u0449\u0435\u043D\u043D\u044B\u0445 \u0436\u0438\u0440\u043D\u044B\u0445 \u043A\u0438\u0441\u043B\u043E\u0442 \u044F\u0432\u043B\u044F\u044E\u0442\u0441\u044F \u0440\u0430\u0441\u0442\u0438\u0442\u0435\u043B\u044C\u043D\u044B\u0435 \u043C\u0430\u0441\u043B\u0430, \u0440\u044B\u0431\u0438\u0439 \u0436\u0438\u0440 \u0438 \u043F\u0440\u0435\u043F\u0430\u0440\u0430\u0442\u044B \u043E\u043C\u0435\u0433\u0430-3-\u0436\u0438\u0440\u043D\u044B\u0445 \u043A\u0438\u0441\u043B\u043E\u0442. \u042D\u0439\u043A\u043E\u0437\u0430\u043D\u043E\u0438\u0434\u044B \u0443\u0447\u0430\u0441\u0442\u0432\u0443\u044E\u0442 \u0432\u043E \u043C\u043D\u043E\u0436\u0435\u0441\u0442\u0432\u0435 \u043F\u0440\u043E\u0446\u0435\u0441\u0441\u043E\u0432, \u0442\u0430\u043A\u0438\u0445 \u043A\u0430\u043A \u0440\u043E\u0441\u0442 \u043C\u044B\u0448\u0435\u0447\u043D\u043E\u0439 \u0442\u043A\u0430\u043D\u0438, \u0440\u0430\u0437\u0434\u0440\u0430\u0436\u0435\u043D\u0438\u0435 \u0438 \u0440\u0435\u0430\u043A\u0446\u0438\u044F\u0445 \u0438\u043C\u043C\u0443\u043D\u0438\u0442\u0435\u0442\u0430 \u043D\u0430 \u0432\u0432\u0435\u0434\u0435\u043D\u043D\u044B\u0435 \u0442\u043E\u043A\u0441\u0438\u043D\u044B \u0438 \u043F\u0430\u0442\u043E\u0433\u0435\u043D\u044B. \u041D\u0435\u043A\u043E\u0442\u043E\u0440\u044B\u0435 \u044D\u0439\u043A\u043E\u0437\u0430\u043D\u043E\u0438\u0434\u044B \u044F\u0432\u043B\u044F\u044E\u0442\u0441\u044F \u043D\u0435\u0439\u0440\u043E\u043C\u0435\u0434\u0438\u0430\u0442\u043E\u0440\u0430\u043C\u0438 \u0438 \u0433\u043E\u0440\u043C\u043E\u043D\u0430\u043C\u0438."@ru , "Eikosanoider \u00E4r en grupp av signalsubstanser som \u00E4ven verkar som lokala hormoner. De \u00E4r derivat av fettsyror, f\u00F6retr\u00E4desvis arakidonsyra. Eikosanoiderna har en framtr\u00E4dande roll f\u00F6r inflammatoriska processer. Exempel p\u00E5 eikosanoider \u00E4r prostaglandiner, leukotrien och tromboxan."@sv , "Eikosanoid \u010Di ikosanoid (\u0159ec. eikosa\u2013dvacet) je produkt metabolismu dvacetiuhl\u00EDkat\u00FDch mastn\u00FDch kyselin, zejm\u00E9na kyseliny arachidonov\u00E9. Eikosanoidy vznikaj\u00ED p\u0159edev\u0161\u00EDm \u00FA\u010Dinkem enzym\u016F cyklooxygen\u00E1zy, cytochromu P450, \u010Di neenzymaticky v jin\u00FDch metabolick\u00FDch cest\u00E1ch. Eikosanoidy jsou vnitrobun\u011B\u010Dn\u00E9 signaliza\u010Dn\u00ED molekuly (tzv. autokrinn\u00ED), kter\u00E9 ovliv\u0148uj\u00ED svalov\u00FD stah, sr\u00E1\u017Een\u00ED krve, bolest \u010Di nap\u0159\u00EDklad z\u00E1n\u011Bt."@cs , "\uC5D0\uC774\uCF54\uC0AC\uB178\uC774\uB4DC(Eicosanoid)\uB294 \uC544\uB77C\uD0A4\uB3C8\uC0B0 \uB4F1 \uC758 \uC0B0\uD654\uB85C \uD615\uC131\uB418\uB294 (Lipid signaling) \uBB3C\uC9C8\uC774\uB2E4."@ko , "Gli eicosanoidi sono lipidi con funzione ormone-simile derivati dell'acido arachidonico, un acido grasso a 20 atomi di carbonio. In generale, la loro funzione biologica riguarda la regolazione dei meccanismi locali coinvolti durante la flogosi (come per esempio la regolazione della vasocostrizione o della vasodilatazione)."@it , "Eicosano\u00EFden zijn een verzameling lokaal werkende (paracriene) weefsel-hormonen die in het organisme worden aangemaakt op basis van essenti\u00EBle vetzuren. De groep werd vroeger ook aangeduid met de term prostaglandinen, maar inmiddels worden ook de leukotri\u00EBnen, de en de tot deze groep paracriene hormonen gerekend. De naam eicosano\u00EFden is afkomstig van het Griekse woord voor twintig (eikosi), wat verwijst naar het feit dat de molecuul-structuur van de verschillende soorten eicosano\u00EFden is gebaseerd op een keten met een lengte van twintig koolstofatomen."@nl , "Als Eicosanoide (v. griech. \u03B5\u03AF\u03BA\u03BF\u03C3\u03B9, \u201Azwanzig\u2018), auch Eikosanoide, wird eine Gruppe von hydrophoben hormon\u00E4hnlichen Substanzen bezeichnet, die aus mehrfach unges\u00E4ttigten Fetts\u00E4uren gebildet wurden. Sie k\u00F6nnen als intra- und extrazellul\u00E4re Signalmolek\u00FCle wirken und sind in eine Vielzahl biologischer Wirkmechanismen eingebunden. Obwohl die Bezeichnung Eicosanoide auf eine Anzahl von 20 Kohlenstoff-Atomen im Molek\u00FCl hinweist, werden zu den Eicosanoiden auch Derivate anderer Fetts\u00E4uren gez\u00E4hlt, die k\u00FCrzer- oder l\u00E4ngerkettig sind, beispielsweise die Derivate der Docosahexaens\u00E4ure und der Linols\u00E4ure."@de , "\u0625\u064A\u0643\u0648\u0632\u0627\u0646\u0648\u064A\u062F (Eicosanoid) \u0647\u064A \u0641\u0626\u0629 \u0645\u0646 \u0627\u0644\u0623\u062D\u0645\u0627\u0636 \u0627\u0644\u062F\u064F\u0647\u0652\u0646\u0650\u064A\u0651\u0629 \u063A\u064A\u0631 \u0627\u0644\u0645\u064F\u0634\u064E\u0628\u064E\u0651\u0639\u0629 \u0627\u0644\u0645\u064F\u0624\u064E\u0643\u0652\u0633\u064E\u062C\u0629\u060C \u0627\u0644\u062F\u0627\u062E\u0650\u0644\u0650\u064A\u064F\u0651\u0629 \u0627\u0644\u0645\u064E\u0646\u0652\u0634\u064E\u0623\u060C \u0627\u0644\u0645\u0634\u062A\u0642\u0629 \u0645\u0646 \u062D\u064E\u0645\u0652\u0636 \u0627\u0644\u0623\u0631\u0627\u0643\u064A\u062F\u0648\u0646\u064A\u0643\u060C \u0648\u0627\u0644\u062F\u064A\u0627\u063A\u0644\u064A\u0633\u0631\u0628\u0646 \u0648\u0647\u064A \u062A\u0634\u0645\u0644 \u0628\u0631\u0648\u0633\u062A\u0627\u063A\u0644\u0627\u0646\u062F\u064A\u0646\u060C \u060C \u0648\u0627\u0644\u062B\u0631\u0648\u0645\u0628\u0648\u0643\u0633\u0627\u0646 (\u0645\u0627\u062F\u0629 \u0645\u062D\u0631\u0636\u0629 \u0644\u0644\u062A\u062E\u062B\u0631 \u0648\u0645\u0642\u0628\u0636\u0629 \u0644\u0644\u0623\u0648\u0639\u064A\u0629)."@ar ; rdfs:seeAlso dbr:Essential_fatty_acid_interactions , dbr:Prostanoid . @prefix foaf: . dbr:Eicosanoid foaf:depiction , , , , , , . @prefix dcterms: . @prefix dbc: . dbr:Eicosanoid dcterms:subject dbc:Eicosanoids ; dbo:wikiPageID 631312 ; dbo:wikiPageRevisionID 1118307878 ; dbo:wikiPageWikiLink dbr:Hydrolase , dbr:Microsome , dbr:Lipoxygenase , dbr:Ester , dbr:Asthma , dbr:Lipoxins , dbr:Mead_acid , , dbr:Rhinitis , , , dbr:Latanoprost , , dbr:Carboprost , dbr:Oxoeicosanoid , dbr:Misoprostol , dbr:Randomized_controlled_trial , dbr:Cannabinoid , dbr:Platelet-activating_factor , dbr:Thromboxane , dbr:National_Institutes_of_Health , dbr:Aulus_Cornelius_Celsus , dbr:Epi-lipoxin , dbc:Eicosanoids , dbr:Vasoconstriction , dbr:Prostaglandin_D2_synthase , dbr:Prostaglandin_DP1_receptor , dbr:Prostaglandin_DP2_receptor , dbr:Gamma-linolenic_acid , dbr:Isozymes , , dbr:PTGES2 , dbr:Fatty_acid , dbr:Eosinophil , , dbr:PGE1 , dbr:Resolvins , dbr:PTGS1 , dbr:TRPV1 , dbr:Dry_eye_syndrome , dbr:Covalent_bond , dbr:Acquired_non-inflammatory_myopathy , dbr:U46619 , dbr:Adduct , dbr:Oxylipin , dbr:Prostacyclin_receptor , dbr:Erythema , dbr:Greek_language , dbr:Essential_fatty_acid , dbr:Essential_fatty_acid_interactions , dbr:Cysteine , dbr:ALOX12B , dbr:ALOX15 , dbr:ALOX15B , dbr:Mucus , dbr:ALOXE3 , dbr:Leukotriene_C4 , dbr:EXC4 , dbr:Leukotrienes , dbr:Labor_induction , dbr:EXD4 , dbr:EXE4 , dbr:Glycine , dbr:Cyclopentane , dbr:Growth_factors , dbr:TNFR , dbr:Thromboxanes , dbr:Glutamate , dbr:LTB4R , dbr:Hepoxilin , dbr:Pathogens , dbr:LTB4R2 , dbr:Childbirth , dbr:Phases_of_clinical_research , dbr:EXA4 , dbr:Blood_pressure , dbr:Omega_oxidation , dbr:Resolvin , dbr:Hereditary_spastic_paraplegia , dbr:Hodgkins_disease , dbr:Leukotriene , dbr:Autocrine_signaling , , dbr:LTA4 , dbr:Venule , dbr:Pathogenesis , dbr:Isofuran , dbr:Nuclear_envelope , dbr:DNA , dbr:Fever , dbr:Glutathione_S-transferase , dbr:Isoprostane , dbr:Docosahexaenoic_acid , dbr:Arachidonoylethanolamine , dbr:LTC4 , dbr:LTC4_synthase , dbr:Hyperalgesia , dbr:Leukotriene_A4_hydrolase , dbr:LTB4 , dbr:Male-pattern_hair_loss , dbr:Stereoselectivity , dbr:Mental_illness , dbr:Receptor_antagonist , dbr:Phospholipid , dbr:FPR2 , dbr:Endoperoxide , dbr:Cyclooxygenase , dbr:LTE4 , dbr:Platelet , dbr:Sleep_apnea , , dbr:Ulf_von_Euler , dbr:LTD4 , dbr:Oxidative_stress , dbr:Mast_cell , , dbr:Lipid_raft , dbr:Lipid_signaling , dbr:NSAID , , dbr:Exercise-induced_bronchoconstriction , dbr:Endocrine , dbr:TRPV3 , dbr:COX-1 , , dbr:COX-2 , , dbr:Pulmonary_hypertension , , dbr:Dihomo-gamma-linolenic_acid , dbr:Hydroxyeicosatetraenoic_acid , , , dbr:Hepoxilins , dbr:Organ_transplant , dbr:Pulmonary_alveolus , , dbr:Specialized_pro-resolving_mediators , dbr:Epoxides , dbr:Vasodilators , dbr:PTGER1 , dbr:PTGER2 , dbr:Epoxyeicosatrienoic_acid , dbr:PTGER3 , dbr:Eicosanoid_receptor , dbr:Epoxygenase , dbr:PTGER4 , dbr:Epoxyeicosatetraenoic_acid , dbr:Stereochemistry , dbr:Cyclopentenone_prostaglandin , dbr:Enzymatic , dbr:Polyunsaturated_fatty_acid , dbr:BLT , dbr:Glutathione , dbr:NMDAR , , dbr:Neuropeptide , dbr:Carbonyl , dbr:Epoxide , dbr:Parturition , dbr:Inflammation , dbr:Chirality , dbr:GPR32 , , dbr:Icosahedron , , dbr:Pain , , dbr:Central_nervous_system , dbr:Rheumatoid_arthritis , dbr:Alprostadil , dbr:Gamma-glutamyltransferase , dbr:Immune_responses , dbr:Fetus , dbr:Eicosapentaenoic_acid , dbr:GPR17 , dbr:Prostaglandins , dbr:Oxygen , dbr:Thromboxane_synthase , dbr:Cardiovascular_disease , , dbr:Double_bond , dbr:Ischemia , dbr:Allergy , dbr:Phospholipase_A2 , dbr:Furan , dbr:Prostacyclin , dbr:Prostacyclin_synthase , dbr:Montelukast , dbr:PTGES , dbr:Heart_attack , dbr:Prostaglandin_E_synthase , dbr:Symmetry , dbr:OXER1 , dbr:National_Library_of_Medicine , dbr:Patent_ductus_arteriosus , , , , dbr:Peroxisome_proliferator-activated_receptor , dbr:Paracrine_signaling , dbr:Prostanoid , dbr:Eoxin , dbr:Atherosclerosis , dbr:Hypertension , dbr:John_Robert_Vane , dbr:Dehydration_reaction , dbr:Reperfusion_injury , dbr:Esterase , dbr:Aspirin , dbr:Stereospecific , dbr:Cell_signaling , dbr:Cell_surface_receptor , dbr:Aspirin-induced_asthma , dbr:Zafirlukast , dbr:Cell_growth , dbr:Murinae , dbr:CYP2U1 , dbr:Cell_membrane , dbr:Isomer , dbr:PTGES3 , dbr:Chiral , dbr:Transferase , dbr:Eczema , dbr:Hypertriglyceridemia , dbr:Nobel_Prize , dbr:Adrenic_acid , dbr:Mucin , dbr:Iloprost , dbr:Oxidation , dbr:Glycerolipid , dbr:Reactive_oxygen_species , , dbr:Nuclear_receptor , dbr:Macrophage , dbr:CYP4A11 , dbr:PGE2 , dbr:CYP4A22 , dbr:Stomach_ulcer , dbr:Cell_signal , dbr:Isoforms , dbr:CYP4F3 , dbr:Lipoxin , dbr:Eoxins , dbr:Abortion , dbr:PTGS2 , dbr:GPR99 , dbr:Antihistamine , dbr:Thio- , dbr:PGD2 , dbr:Prostaglandin , dbr:TXA2 , dbr:AHR , dbr:Straight-chain , dbr:TXB2 , dbr:Dinoprostone , dbr:Nonclassic_eicosanoid , dbr:Urticaria , , dbr:PGI2 , dbr:Enzymes , dbr:Biosynthesis , dbr:Hydroxyl , dbr:Bimatoprost , dbr:O-arachidonoyl-ethanolamine , dbr:Vasoconstrictor , dbr:Beraprost , dbr:Chemotactic_factor , dbr:Elias_James_Corey , dbr:Peroxide , , dbr:PGF2alpha , dbr:CMKLR1 , dbr:Peroxidases , dbr:Cannabinoid_receptor , dbr:Nonsteroidal_anti-inflammatory_drug , dbr:PGG2 , dbr:Allodynia , dbr:Arachidonate_12-lipoxygenase , dbr:PGH2 , , , dbr:Pulmonary_artery_hypertension , dbr:Ciclosporin , dbr:Cytokines , dbr:Arachidonate_5-lipoxygenase , dbr:MGST2 , dbr:N-Arachidonoyl_dopamine , dbr:Pranlukast , dbr:Evidence-based_medicine , , dbr:Thromboxane_receptor , , dbr:Abortifacient , dbr:CYSLTR1 , dbr:Glaucoma , dbr:CYSLTR2 , dbr:Carrier_protein , dbr:Coagulation , dbr:Vasodilation , dbr:Stroke , dbr:Ocular_hypertension , , dbr:Erectile_dysfunction , dbr:Edema , dbr:Arachidonic_acid , dbr:Redox , dbr:Prostanoids , dbr:Cytokine , dbr:Cytochrome_P450 , dbr:CYP4F2 , dbr:Travoprost , dbr:Cytochrome_P450_monooxygenase , dbr:Conjugated_system , dbr:Membrane_fluidity ; owl:sameAs . @prefix dbpedia-simple: . dbr:Eicosanoid owl:sameAs dbpedia-simple:Eicosanoid , . @prefix dbpedia-ro: . dbr:Eicosanoid owl:sameAs dbpedia-ro:Eicosanoide . @prefix dbpedia-tr: . dbr:Eicosanoid owl:sameAs dbpedia-tr:Eikozanoid . @prefix dbpedia-sr: . dbr:Eicosanoid owl:sameAs dbpedia-sr:Eikosanoid . @prefix dbpedia-de: . dbr:Eicosanoid owl:sameAs dbpedia-de:Eicosanoide , , . @prefix yago-res: . dbr:Eicosanoid owl:sameAs yago-res:Eicosanoid , . @prefix wikidata: . dbr:Eicosanoid owl:sameAs wikidata:Q407680 . @prefix dbpedia-pt: . dbr:Eicosanoid owl:sameAs dbpedia-pt:Eicosanoide . @prefix dbpedia-sh: . dbr:Eicosanoid owl:sameAs dbpedia-sh:Eikosanoid . @prefix dbpedia-id: . dbr:Eicosanoid owl:sameAs dbpedia-id:Eikosanoid , , . @prefix dbpedia-cs: . dbr:Eicosanoid owl:sameAs dbpedia-cs:Eikosanoid . @prefix ns20: . dbr:Eicosanoid owl:sameAs ns20:Eicosanoide . @prefix dbpedia-no: . dbr:Eicosanoid owl:sameAs dbpedia-no:Eikosanoid . @prefix dbpedia-eu: . dbr:Eicosanoid owl:sameAs dbpedia-eu:Eikosanoide . @prefix dbpedia-sl: . dbr:Eicosanoid owl:sameAs dbpedia-sl:Eikozanoid , , , . @prefix dbpedia-es: . dbr:Eicosanoid owl:sameAs dbpedia-es:Eicosanoide . @prefix dbpedia-it: . dbr:Eicosanoid owl:sameAs dbpedia-it:Eicosanoidi . @prefix dbpedia-hr: . dbr:Eicosanoid owl:sameAs dbpedia-hr:Eikozanoidi . @prefix dbpedia-fi: . dbr:Eicosanoid owl:sameAs dbpedia-fi:Eikosanoidit . @prefix dbpedia-pl: . dbr:Eicosanoid owl:sameAs dbpedia-pl:Eikozanoidy , . @prefix dbpedia-gl: . dbr:Eicosanoid owl:sameAs dbpedia-gl:Eicosanoide . @prefix dbpedia-sv: . dbr:Eicosanoid owl:sameAs dbpedia-sv:Eikosanoider . @prefix dbpedia-ca: . dbr:Eicosanoid owl:sameAs dbpedia-ca:Icosanoide . @prefix dbp: . @prefix dbt: . dbr:Eicosanoid dbp:wikiPageUsesTemplate dbt:Short_description , dbt:MeshName , dbt:Cquote , dbt:Main_article , dbt:See_also , dbt:Clear , dbt:Eicosanoids , dbt:Lipids , dbt:Reflist ; dbo:thumbnail ; dbo:abstract "\u30A8\u30A4\u30B3\u30B5\u30CE\u30A4\u30C9 (eicosanoid) 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, "Los eicosanoides o icosanoides son un grupo de mol\u00E9culas de car\u00E1cter lip\u00EDdico originadas de la oxidaci\u00F3n de los \u00E1cidos grasos esenciales de 20 carbonos tipo omega-3 y omega-6. Cumplen amplias funciones como mediadores para el sistema nervioso central, los eventos de la inflamaci\u00F3n y de la respuesta inmune tanto en vertebrados como en invertebrados. Todos los eicosanoides son mol\u00E9culas de 20 \u00E1tomos de carbono y est\u00E1n agrupados en prostaglandinas, tromboxanos, leucotrienos, y ciertos precursores de los leucotrienos. Constituyen las mol\u00E9culas involucradas en las redes de comunicaci\u00F3n celular m\u00E1s complejas del organismo animal, incluyendo el ser humano.\u200B\u200B"@es , "Eicosanoids are signaling molecules made by the enzymatic or non-enzymatic oxidation of arachidonic acid or other polyunsaturated fatty acids (PUFAs) that are, similar to arachidonic acid, around 20 carbon units in length. Eicosanoids are a sub-category of oxylipins, i.e. oxidized fatty acids of diverse carbon units in length, and are distinguished from other oxylipins by their overwhelming importance as cell signaling molecules. Eicosanoids function in diverse physiological systems and pathological processes such as: mounting or inhibiting inflammation, allergy, fever and other immune responses; regulating the abortion of pregnancy and normal childbirth; contributing to the perception of pain; regulating cell growth; controlling blood pressure; and modulating the regional flow of blood to tissues. In performing these roles, eicosanoids most often act as autocrine signaling agents to impact their cells of origin or as paracrine signaling agents to impact cells in the proximity of their cells of origin. Eicosanoids may also act as endocrine agents to control the function of distant cells. There are multiple subfamilies of eicosanoids, including most prominently the prostaglandins, thromboxanes, leukotrienes, lipoxins, resolvins, and eoxins. For each subfamily, there is the potential to have at least 4 separate series of metabolites, two series derived from \u03C9-6 PUFAs (arachidonic and dihomo-gamma-linolenic acids), one series derived from the \u03C9-3 PUFA (eicosapentaenoic acid), and one series derived from the \u03C9-9 PUFA (mead acid). This subfamily distinction is important. Mammals, including humans, are unable to convert \u03C9-6 into \u03C9-3 PUFA. In consequence, tissue levels of the \u03C9-6 and \u03C9-3 PUFAs and their corresponding eicosanoid metabolites link directly to the amount of dietary \u03C9-6 versus \u03C9-3 PUFAs consumed. Since certain of the \u03C9-6 and \u03C9-3 PUFA series of metabolites have almost diametrically opposing physiological and pathological activities, it has often been suggested that the deleterious consequences associated with the consumption of \u03C9-6 PUFA-rich diets reflects excessive production and activities of \u03C9-6 PUFA-derived eicosanoids, while the beneficial effects associated with the consumption of \u03C9-3 PUFA-rich diets reflect the excessive production and activities of \u03C9-3 PUFA-derived eicosanoids. In this view, the opposing effects of \u03C9-6 PUFA-derived and \u03C9-3 PUFA-derived eicosanoids on key target cells underlie the detrimental and beneficial effects of \u03C9-6 and \u03C9-3 PUFA-rich diets on inflammation and allergy reactions, atherosclerosis, hypertension, cancer growth, and a host of other processes."@en , "Eikosanoider \u00E4r en grupp av signalsubstanser som \u00E4ven verkar som lokala hormoner. De \u00E4r derivat av fettsyror, f\u00F6retr\u00E4desvis arakidonsyra. Eikosanoiderna har en framtr\u00E4dande roll f\u00F6r inflammatoriska processer. Exempel p\u00E5 eikosanoider \u00E4r prostaglandiner, leukotrien och tromboxan."@sv , "Eicosano\u00EFden zijn een verzameling lokaal werkende (paracriene) weefsel-hormonen die in het organisme worden aangemaakt op basis van essenti\u00EBle vetzuren. De groep werd vroeger ook aangeduid met de term prostaglandinen, maar inmiddels worden ook de leukotri\u00EBnen, de en de tot deze groep paracriene hormonen gerekend. De naam eicosano\u00EFden is afkomstig van het Griekse woord voor twintig (eikosi), wat verwijst naar het feit dat de molecuul-structuur van de verschillende soorten eicosano\u00EFden is gebaseerd op een keten met een lengte van twintig koolstofatomen. Eicosano\u00EFden worden gevormd uit meervoudig onverzadigde essenti\u00EBle vetzuren, zoals arachidonzuur of eicosapentaeenzuur (EPA). De eerste stap in de biosynthese van eicosano\u00EFden is het direct vrijmaken van in de celmembraan gebonden essenti\u00EBle vetzuren door het enzym fosfolipase A2. Daarnaast kunnen ze ook indirect worden gesynthetiseerd uit membraan-gebonden vetzuren via fosfolipase C. Na deze (in)directe vrijmaking kunnen de verschillende vetzuren verder tot hormoon worden omgezet door een van de volgende drie enzymen: cyclo-oxygenase , of epoxygenase.De nummering van eicosano\u00EFden wordt gebruikt om het aantal dubbele bindingen aan te geven. De uit arachidonzuur aangemaakte prostaglandinen hebben twee dubbele bindingen, terwijl de leukotri\u00EBnen er vier hebben. Eicosano\u00EFden spelen een belangrijke rol bij ontstekingsprocessen en in het immuunsysteem."@nl , "\u0625\u064A\u0643\u0648\u0632\u0627\u0646\u0648\u064A\u062F (Eicosanoid) \u0647\u064A \u0641\u0626\u0629 \u0645\u0646 \u0627\u0644\u0623\u062D\u0645\u0627\u0636 \u0627\u0644\u062F\u064F\u0647\u0652\u0646\u0650\u064A\u0651\u0629 \u063A\u064A\u0631 \u0627\u0644\u0645\u064F\u0634\u064E\u0628\u064E\u0651\u0639\u0629 \u0627\u0644\u0645\u064F\u0624\u064E\u0643\u0652\u0633\u064E\u062C\u0629\u060C \u0627\u0644\u062F\u0627\u062E\u0650\u0644\u0650\u064A\u064F\u0651\u0629 \u0627\u0644\u0645\u064E\u0646\u0652\u0634\u064E\u0623\u060C \u0627\u0644\u0645\u0634\u062A\u0642\u0629 \u0645\u0646 \u062D\u064E\u0645\u0652\u0636 \u0627\u0644\u0623\u0631\u0627\u0643\u064A\u062F\u0648\u0646\u064A\u0643\u060C \u0648\u0627\u0644\u062F\u064A\u0627\u063A\u0644\u064A\u0633\u0631\u0628\u0646 \u0648\u0647\u064A \u062A\u0634\u0645\u0644 \u0628\u0631\u0648\u0633\u062A\u0627\u063A\u0644\u0627\u0646\u062F\u064A\u0646\u060C \u060C \u0648\u0627\u0644\u062B\u0631\u0648\u0645\u0628\u0648\u0643\u0633\u0627\u0646 (\u0645\u0627\u062F\u0629 \u0645\u062D\u0631\u0636\u0629 \u0644\u0644\u062A\u062E\u062B\u0631 \u0648\u0645\u0642\u0628\u0636\u0629 \u0644\u0644\u0623\u0648\u0639\u064A\u0629). \u0647\u064A \u0646\u0648\u0627\u062A\u062C \u0623\u064A\u0636 \u062D\u0645\u0636 \u0627\u0644\u0623\u0631\u0627\u0643\u064A\u062F\u0648\u0646\u064A\u0643\u060C \u062A\u0646\u062A\u062C \u0645\u0646 \u0641\u0639\u0644 \u0627\u0644\u0641\u0648\u0633\u0641\u0648\u0644\u064A\u0628\u0627\u0632 (\u062A\u0648\u062C\u062F \u0639\u062F\u0629 \u0623\u0646\u0648\u0627\u0639 \u0645\u0646 \u0647\u0630\u0627 \u0627\u0644\u0623\u0646\u0632\u064A\u0645) \u0639\u0644\u0649 \u0627\u0644\u0634\u062D\u0645\u064A \u0627\u0644\u0641\u0633\u0641\u0648\u0631\u064A \u0627\u0644\u063A\u0634\u0627\u0626\u064A. \u0647\u064A \u0639\u0628\u0627\u0631\u0629 \u0639\u0646 \u0639\u0646\u0627\u0635\u0631 \u0630\u0627\u0626\u0628\u0629 \u0641\u064A \u0627\u0644\u062F\u0647\u0648\u0646 \u0645\u0648\u062C\u0647\u0629 \u0644\u0644\u0625\u0641\u0631\u0627\u0632 \u062E\u0627\u0631\u062C \u0627\u0644\u062E\u0644\u0648\u064A\u060C \u0648\u062A\u0644\u0639\u0628 \u062F\u0648\u0631\u0627 \u0647\u0627\u0645\u0627 \u0641\u064A \u0627\u0644\u0643\u0627\u0626\u0646\u0627\u062A \u0627\u0644\u062D\u064A\u0629. \u0627\u0644\u0628\u0631\u0648\u0633\u062A\u0627\u063A\u0644\u0627\u0646\u062F\u064A\u0646 \u0647\u064A \u0639\u0648\u0627\u0645\u0644 \u0646\u0638\u064A\u0631 \u0635\u0645\u0627\u0648\u064A\u0629 \u0648\u0623\u0648\u062A\u0648\u0643\u0631\u064A\u0646 \u062A\u0642\u0648\u0645 \u0628\u062A\u0641\u0639\u064A\u0644 \u0627\u0644\u0639\u062F\u064A\u062F \u0645\u0646 RCPG (\u0645\u0633\u062A\u0642\u0628\u0644\u0627\u062A \u063A\u0634\u0627\u0626\u064A\u0629 \u0645\u0646 7 \u0623\u062C\u0632\u0627\u0621 \u0645\u062E\u062A\u0631\u0642\u0629 \u0644\u0644\u063A\u0634\u0627\u0621 \u0648\u0645\u0631\u062A\u0628\u0637\u0629 \u0645\u0639 \u0628\u0631\u0648\u062A\u064A\u0646\u0627\u062A G). \u0643\u0644 \u0628\u0631\u0648\u0633\u062A\u0627\u063A\u0644\u0627\u0646\u062F\u064A\u0646 \u064A\u062D\u0648\u064A 20 \u0630\u0631\u0629 \u0645\u0646 \u0627\u0644\u0643\u0631\u0628\u0648\u0646 \u0645\u0646 \u0628\u064A\u0646\u0647\u0627 5 \u0630\u0631\u0627\u062A \u0641\u064A \u062D\u0644\u0642\u0629. \u0647\u064A \u0639\u0628\u0627\u0631\u0629 \u0639\u0646 \u0648\u0633\u0627\u0626\u0637 \u0643\u064A\u0645\u064A\u0627\u0626\u064A\u0629 \u0644\u0647\u0627 \u0627\u0644\u0643\u062B\u064A\u0631 \u0645\u0646 \u0627\u0644\u062A\u0623\u062B\u064A\u0631\u0627\u062A \u0627\u0644\u0641\u0633\u064A\u0648\u0644\u0648\u062C\u064A\u0629."@ar , "\u042D\u0439\u043A\u043E\u0437\u0430\u043D\u043E\u0438\u0434\u044B \u2014 \u043E\u043A\u0438\u0441\u043B\u0435\u043D\u043D\u044B\u0435 \u043F\u0440\u043E\u0438\u0437\u0432\u043E\u0434\u043D\u044B\u0435 \u043F\u043E\u043B\u0438\u043D\u0435\u043D\u0430\u0441\u044B\u0449\u0435\u043D\u043D\u044B\u0445 \u0436\u0438\u0440\u043D\u044B\u0445 \u043A\u0438\u0441\u043B\u043E\u0442, \u0441\u043E\u0434\u0435\u0440\u0436\u0430\u0449\u0438\u0445 20 \u0443\u0433\u043B\u0435\u0440\u043E\u0434\u043D\u044B\u0445 \u0430\u0442\u043E\u043C\u043E\u0432 (\u043E\u0442\u0441\u044E\u0434\u0430 \u0438\u0445 \u043D\u0430\u0437\u0432\u0430\u043D\u0438\u0435 \u00ABeicosa\u00BB, \u0447\u0442\u043E \u043F\u043E-\u0434\u0440\u0435\u0432\u043D\u0435\u0433\u0440\u0435\u0447\u0435\u0441\u043A\u0438 \u043E\u0437\u043D\u0430\u0447\u0430\u0435\u0442 \u00AB\u0434\u0432\u0430\u0434\u0446\u0430\u0442\u044C\u00BB), \u2014 \u0434\u0438\u0433\u043E\u043C\u043E-\u03B3-\u043B\u0438\u043D\u043E\u043B\u0435\u043D\u043E\u0432\u043E\u0439 (\u044D\u0439\u043A\u043E\u0437\u0430\u0442\u0440\u0438\u0435\u043D\u043E\u0432\u043E\u0439, \u042120:3), \u0430\u0440\u0430\u0445\u0438\u0434\u043E\u043D\u043E\u0432\u043E\u0439 (\u044D\u0439\u043A\u043E\u0437\u0430\u0442\u0435\u0442\u0440\u0430\u0435\u043D\u043E\u0432\u043E\u0439, \u042120:4), \u0442\u0438\u043C\u043D\u043E\u0434\u043E\u043D\u043E\u0432\u043E\u0439 (\u044D\u0439\u043A\u043E\u0437\u0430\u043F\u0435\u043D\u0442\u0430\u0435\u043D\u043E\u0432\u043E\u0439, \u042120:5). \u041F\u0438\u0449\u0435\u0432\u044B\u043C\u0438 \u0438\u0441\u0442\u043E\u0447\u043D\u0438\u043A\u0430\u043C\u0438 \u043F\u043E\u043B\u0438\u043D\u0435\u043D\u0430\u0441\u044B\u0449\u0435\u043D\u043D\u044B\u0445 \u0436\u0438\u0440\u043D\u044B\u0445 \u043A\u0438\u0441\u043B\u043E\u0442 \u044F\u0432\u043B\u044F\u044E\u0442\u0441\u044F \u0440\u0430\u0441\u0442\u0438\u0442\u0435\u043B\u044C\u043D\u044B\u0435 \u043C\u0430\u0441\u043B\u0430, \u0440\u044B\u0431\u0438\u0439 \u0436\u0438\u0440 \u0438 \u043F\u0440\u0435\u043F\u0430\u0440\u0430\u0442\u044B \u043E\u043C\u0435\u0433\u0430-3-\u0436\u0438\u0440\u043D\u044B\u0445 \u043A\u0438\u0441\u043B\u043E\u0442. \u042D\u0439\u043A\u043E\u0437\u0430\u043D\u043E\u0438\u0434\u044B \u0443\u0447\u0430\u0441\u0442\u0432\u0443\u044E\u0442 \u0432\u043E \u043C\u043D\u043E\u0436\u0435\u0441\u0442\u0432\u0435 \u043F\u0440\u043E\u0446\u0435\u0441\u0441\u043E\u0432, \u0442\u0430\u043A\u0438\u0445 \u043A\u0430\u043A \u0440\u043E\u0441\u0442 \u043C\u044B\u0448\u0435\u0447\u043D\u043E\u0439 \u0442\u043A\u0430\u043D\u0438, \u0440\u0430\u0437\u0434\u0440\u0430\u0436\u0435\u043D\u0438\u0435 \u0438 \u0440\u0435\u0430\u043A\u0446\u0438\u044F\u0445 \u0438\u043C\u043C\u0443\u043D\u0438\u0442\u0435\u0442\u0430 \u043D\u0430 \u0432\u0432\u0435\u0434\u0435\u043D\u043D\u044B\u0435 \u0442\u043E\u043A\u0441\u0438\u043D\u044B \u0438 \u043F\u0430\u0442\u043E\u0433\u0435\u043D\u044B. \u041D\u0435\u043A\u043E\u0442\u043E\u0440\u044B\u0435 \u044D\u0439\u043A\u043E\u0437\u0430\u043D\u043E\u0438\u0434\u044B \u044F\u0432\u043B\u044F\u044E\u0442\u0441\u044F \u043D\u0435\u0439\u0440\u043E\u043C\u0435\u0434\u0438\u0430\u0442\u043E\u0440\u0430\u043C\u0438 \u0438 \u0433\u043E\u0440\u043C\u043E\u043D\u0430\u043C\u0438."@ru , "Em bioqu\u00EDmica, chamam-se eicosanoides as mol\u00E9culas derivadas de \u00E1cidos graxos com 20 carbonos das fam\u00EDlias \u00F4mega-3 e \u00F4mega 6. A maioria dos eicosanoides mais relevantes deriva do \u00E1cido araquid\u00F4nico atrav\u00E9s da via metab\u00F3lica da cascata do \u00E1cido araquid\u00F4nico. Elas exercem um complexo controle sobre diversos sistemas do organismo humano, especialmente na inflama\u00E7\u00E3o, na imunidade, e como mensageiros do sistema nervoso central. As redes de pesca de controles biol\u00F3gicos que dependem dos eicosanoides est\u00E3o entre as mais complexas do corpo humano. Os eicosanoides \u00F4mega-6 s\u00E3o geralmente pr\u00F3-inflamat\u00F3rios, enquanto os \u00F4mega-3 exercem bem menos essa fun\u00E7\u00E3o. A quantidade desses \u00E1cidos graxos na dieta de uma pessoa afeta as fun\u00E7\u00F5es controladas pelos eicosanoides no organismo dela, podendo afetar o sistema cardiovascular, a quantidade de triglic\u00E9rides, a press\u00E3o arterial e a gravidade da artrite. F\u00E1rmacos anti-inflamat\u00F3rios como o \u00E1cido acetilsalic\u00EDlico e outros anti-inflamat\u00F3rios n\u00E3o-esteroides agem diminuindo a s\u00EDntese de eicosanoides. Existem tr\u00EAs fam\u00EDlias de eicosanoides: os prostanoides, leucotrienos e lipoxinas. Os prostanoides incluem as prostaglandinas, as prostaciclinas e os tromboxanos. Para cada uma h\u00E1 duas ou tr\u00EAs s\u00E9ries separadas derivadas de um \u00E1cido graxo \u00F4mega-3 ou \u00F4mega-6. As diferentes atividades dessas s\u00E9ries explicam os efeitos ben\u00E9ficos dos \u00F4mega-3 e \u00F4mega-6 para a sa\u00FAde."@pt , "\u7C7B\u82B1\u751F\u9178\uFF08\u82F1\u8A9E\uFF1AEicosanoid\uFF0C\u53C8\u79F0\u4E3A\u7C7B\u4E8C\u5341\u70F7\u9178\u6216\u662F\u985E\u82B1\u751F\u6CB9\u9178\uFF09\u662F\u7531\u542B\u4E8C\u5341\u4E2A\u78B3\u7684\u591A\u5143\u4E0D\u9971\u548C\u8102\u80AA\u9178\u884D\u751F\u800C\u6765\u7684\u8102\u7C7B\u4E2D\u7684\u4E00\u4E2A\u5BB6\u65CF\uFF0C\u8FD9\u7C7B\u5316\u5408\u7269\u90FD\u542B\u6709\u4E8C\u5341\u4E2A\u78B3\u539F\u5B50\uFF0C\u56E0\u6B64\u53C8\u88AB\u79F0\u4E3A\u201C\u7C7B\u4E8C\u5341\u70F7\u9178\u201D\u3002\u5176\u4E2D\u5305\u62EC\u51E0\u7C7B\u5177\u6709\u591A\u79CD\u751F\u7269\u6D3B\u6027\u7684\u5206\u5B50\uFF1A\u524D\u5217\u817A\u7D20\uFF08prostaglandins\uFF09\uFF08\u4EE5\u53CA\u524D\u5217\u73AF\u7D20\uFF09\u3001\u51DD\u8840\u5641\u70F7\uFF08\u6216\u7A31\u8840\u6813\u7D20\uFF0Cthromboxanes\uFF09\u3001\u767D\u4E09\u70EF\uFF08leukotrienes\uFF09\u3001\u8102\u6C27\u7D20\uFF08lipoxins\uFF09\u3001\u7DE9\u89E3\u56E0\u5B50\uFF08resolvins\uFF09\u4EE5\u53CA eoxins\u7B49\u3002\u5176\u524D\u4F53\u4E3B\u8981\u662F\u82B1\u751F\u56DB\u70EF\u9178\uFF0C\u4E5F\u6709\u5C11\u91CF\u7684\u03B3-\u9AD8\u4E9A\u9EBB\u6CB9\u9178\u4E0E\u4E8C\u5341\u78B3\u4E94\u70EF\u9178\u3002\u666E\u904D\u5B58\u5728\u4E8E\u4EBA\u548C\u54FA\u4E73\u52A8\u7269\u7684\u7EC4\u7EC7\u7EC6\u80DE\u4E2D\uFF0C\u53C2\u4E0E\u5E73\u6ED1\u808C\u7684\u6536\u7F29\u6216\u8212\u5F20\u3001\u8840\u5C0F\u677F\u805A\u96C6\u53CA\u708E\u75C7\u53CD\u5E94\u3002 \u5728\u751F\u7269\u5316\u5B78\u4E0A\uFF0C\u985E\u82B1\u751F\u9178\u662F\u4E00\u4E9B\u7531\u670920\u500B\u78B3\u93C8\u7D50\u7684\u8102\u80AA\u9178\u6C27\u5316\u4F5C\u7528\u800C\u5F62\u6210\u7684\u300C\u50B3\u8A0A\u5206\u5B50\u300D\uFF08signaling molecules\uFF09\u3002\u7531\uFF08\u6216\u7A31\u70BA\u4E8C\u5341\u78B3\u56DB\u70EF\u9178\uFF09\u6216\u8005\u5176\u4ED6\u7684\u591A\u5143\u4E0D\u98FD\u548C\u8102\u80AA\u9178\uFF08PUFAs: polyunsaturated fatty acids\uFF09\u7D93\u7531\u9175\u7D20\u6027\u6216\u975E\u9175\u7D20\u6027\u6C27\u5316\u800C\u6210\u3002\u5B83\u5011\u662F\uFF08\u4E0D\u540C\u5F62\u5F0F\u78B3\u93C8\u7684\u8102\u80AA\u9178\u6C27\u5316\u7269\uFF09\u7684\u6B21\u985E\u5225\uFF1B\u4F46\u662F\u7531\u65BC\u5B83\u5011\u4F5C\u70BA\u7D30\u80DE\u4FE1\u865F\u5206\u5B50\u7684\u7D55\u5C0D\u91CD\u8981\u6027\uFF0C\u56E0\u6B64\u5C07\u5B83\u5011\u548C\u5176\u5B83\u7684\u8102\u6C27\u5316\u7269\u5340\u5206\u958B\u4F86\u3002\u985E\u82B1\u751F\u9178\u4F5C\u7528\u5728\u591A\u7A2E\u751F\u7406\u4E0A\u4EE5\u53CA\u75C5\u7406\u4E0A\u7684\u7CFB\u7D71\uFF0C\u9019\u4E9B\u5305\u62EC\u4E86\uFF1A\u4FC3\u9032\u6216\u6291\u5236\u767C\u708E\u3001\u904E\u654F\u3001\u767C\u71D2\u4EE5\u53CA\u5176\u4ED6\u514D\u75AB\u53CD\u61C9\uFF1B\u5DE6\u53F3\u6216\u8005\u5F71\u97FF\u598A\u5A20\u6D41\u7522\u548C\u6B63\u5E38\u751F\u7522\uFF1B\u4FC3\u6210\u75BC\u75DB\u7684\u611F\u77E5\uFF1B\u8ABF\u63A7\u7D30\u80DE\u7684\u751F\u9577\uFF1B\u63A7\u5236\u8840\u58D3\uFF1B\u8ABF\u7BC0\u5C40\u90E8\u6027\u7684\u8840\u6D41\u9032\u5165\u7D44\u7E54\u3002\u5728\u9019\u4E9B\u4F5C\u7528\u904B\u4F5C\u7684\u904E\u7A0B\u4E2D\uFF0C\u985E\u82B1\u751F\u9178\u6700\u5E38\u4F5C\u70BA\u300C\u81EA\u6CCC\u50B3\u8A0A\u5291\u300D\uFF08autocrine signaling agents\uFF09\u53BB\u5F71\u97FF\u4ED6\u5011\u81EA\u8EAB\u7684\u7D30\u80DE\uFF0C\u6216\u8005\u4F5C\u70BA\u300C\u65C1\u5206\u6CCC\u50B3\u8A0A\u5291\u300D\uFF08paracrine signaling agents\uFF09\u53BB\u5F71\u97FF\u9130\u8FD1\u4ED6\u5011\u81EA\u8EAB\u7D30\u80DE\u7684\u7D30\u80DE\u3002\u7136\u800C\uFF0C\u4ED6\u5011\u4E5F\u53EF\u4EE5\u4F5C\u70BA\u300C\u5167\u5206\u6CCC\u5291\u300D\uFF08endocrine agents\uFF09\u53BB\u63A7\u5236\u9060\u7AEF\u7D30\u80DE\u7684\u904B\u4F5C\u3002\u7531\u985E\u82B1\u751F\u9178\u4E3B\u5C0E\u7684\u63A7\u5236\u7DB2\u7D61\u5728\u4EBA\u985E\u8EAB\u9AD4\u4E2D\u662F\u6700\u70BA\u8907\u96DC\u7684\u3002 \u5728\u9019\u8A31\u591A\u7A2E\u985E\u82B1\u751F\u9178\u7684\u5BB6\u65CF\u4E2D\uFF0C\u5C0D\u65BC\u6BCF\u4E00\u500B\u4E9E\u5BB6\u65CF\uFF0C\u6709\u53EF\u80FD\u5177\u6709\u81F3\u5C115\u500B\u7368\u7ACB\u7CFB\u5217\u7684\u4EE3\u8B1D\u7269\uFF0C\u5169\u500B\u7CFB\u5217\u5F9E\u03C9-6 PUFA \u884D\u751F\u51FA\u4F86\uFF0C\u5206\u5225\u662F\u82B1\u751F\u56DB\u70EF\u9178\uFF08Arachidonic acid\uFF09\u548C\uFF08dihomo-gamma-linolenic acids\uFF09\uFF0C\u4E00\u500B\u7CFB\u5217\u5F9E\u03C9-3 PUFA \u884D\u751F\u51FA\u4F86\uFF0C\u5373\u70BA\u4E8C\u5341\u78B3\u4E94\u70EF\u9178\uFF08eicosapentaenoic acid\uFF0C\u7C21\u7A31EPA\uFF09\uFF0C\u4E00\u500B\u7CFB\u5217\u5F9E\u03C9-9 PUFA \u884D\u751F\u51FA\u4F86\uFF0C\u5373\u70BA\uFF08mead acid\uFF09\u3002 \u985E\u82B1\u751F\u9178\u4E3B\u8981\u7531\u5169\u5927\u985E\u7684\u591A\u5143\u4E0D\u98FD\u548C\u8102\u80AA\u9178\u6240\u5F62\u6210\uFF0C\u4EA6\u5373 omega-6 (\u03C9-6) \u548C omega-3 (\u03C9-3) \u8102\u80AA\u9178\u3002\u7531\u65BC\u4EBA\u985E\u4EE5\u53CA\u5176\u4ED6\u7684\u54FA\u4E73\u52D5\u7269\u7121\u6CD5\u5C07omega-6 (\u03C9-6) \u8F49\u5316\u6210 omega-3 (\u03C9-3) \u8102\u80AA\u9178\uFF0C\u56E0\u6B64\uFF0C\u9019\u5169\u5927\u985E\u8102\u80AA\u9178\u5728\u54FA\u4E73\u985E\u52D5\u7269\u7D44\u7E54\u4E2D\u7684\u76F8\u95DC\u57FA\u6E96\u91CF\u4EE5\u53CA\u9019\u4E9B\u7D44\u7E54\u4E2D\u300C\u03C9-6\u8102\u80AA\u9178\u884D\u751F\u985E\u82B1\u751F\u9178\u300D\u5C0D \u300C\u03C9-3 \u8102\u80AA\u9178\u884D\u751F\u985E\u82B1\u751F\u9178\u300D\u7684\u5C0D\u61C9\u91CF\uFF0C\u662F\u76F4\u63A5\u53D6\u6C7A\u65BC\u300C\u81B3\u98DF\u03C9-6\u300D\u548C\u300C\u03C9-6\u8102\u80AA\u9178\u6D88\u8017\u300D\u7684\u5C0D\u61C9\u91CF\u3002\u9019\u4E9B\u89C0\u9EDE\u662F\u975E\u5E38\u91CD\u8981\u7684\uFF0C\u56E0\u70BA\u985E\u82B1\u751F\u9178\u662F\u5F9E\u9019\u5169\u5927\u985E\u901A\u5E38\u6709\u8457\u76F8\u53CD\u4F5C\u7528\u7684\u8102\u80AA\u9178\u6240\u884D\u751F\u51FA\u4F86\u7684\u3002\u4F8B\u5982\uFF0C\u8A31\u591A\u7684\u300C\u03C9-6 \u8102\u80AA\u9178\u884D\u751F\u985E\u82B1\u751F\u9178\u300D\u6709\u8457\u300C\u4FC3\u708E\u300D\u7684\u4F5C\u7528\u800C\u300C\u03C9-3 \u8102\u80AA\u9178\u884D\u751F\u985E\u82B1\u751F\u9178\u300D\u5247\u662F\u6709\u8457\u5F31\u6216\u7121\u300C\u4FC3\u708E\u300D\u7684\u4F5C\u7528\uFF1B\u5728\u9019\u4E9B\u60C5\u5F62\u4E0B\uFF0C\u03C9-3 \u8102\u80AA\u9178\u548C\u03C9-6\u8102\u80AA\u9178\u5F7C\u6B64\u7AF6\u722D\u4F7F\u7528\u76F8\u540C\u7684\u4EE3\u8B1D\u9014\u5F91\uFF0C\u56E0\u6B64\uFF0C\u76F8\u5C0D\u4E0A\u975E\u6D3B\u6027\u7684\u03C9-3 \u8102\u80AA\u9178\u884D\u751F\u7522\u7269\u53D6\u4EE3\u4E86\u6D3B\u6027\u7684\u03C9-6 \u8102\u80AA\u9178\u884D\u751F\u7522\u7269\u3002\u66F4\u9032\u4E00\u6B65\u4F86\u8AAA\uFF0C\u4E00\u4E9B\u300C\u03C9-3 \u8102\u80AA\u9178\u884D\u751F\u985E\u82B1\u751F\u9178\u300D\uFF0C\u88AB\u7A31\u70BAresolvins\uFF08\u5982\u540C\u03C9-3 \u8102\u80AA\u9178\u7684\u4EE3\u8B1D\u7269\uFF3B\u88AB\u7A31\u70BAdocosanoids\u3015\uFF0C\u4E8C\u5341\u4E8C\u78B3\u516D\u70EF\u9178\uFF3Bdocosahexaenoic acid\u3015\uFF09\uFF0C\u6709\u8457\u5F37\u529B\u7684\u6297\u708E\u4F5C\u7528\u3002\u540C\u6A23\u5730\uFF0C\u5728\u300C\u03C9-3 \u8102\u80AA\u9178\u884D\u751F\u985E\u82B1\u751F\u9178\u300D\u88AB\u6291\u5236\u7684\u6642\u5019\uFF0C\u300C\u03C9-6 \u8102\u80AA\u9178\u884D\u751F\u985E\u82B1\u751F\u9178\u300D\u6703\u4FC3\u4F7F\u904E\u654F\u53CD\u61C9\u3001\u52D5\u8108\u7CA5\u6A23\u786C\u5316\u3001\u9AD8\u8840\u58D3\u3001\u764C\u7D30\u80DE\u589E\u9577\u3001\u4EE5\u53CA\u5176\u5B83\u751F\u7406\u4E0A\u81F4\u75C5\u7684\u904E\u7A0B\u3002\u56E0\u6B64\uFF0C\u5BCC\u542B\u03C9-6 \u8102\u80AA\u9178\u7684\u98F2\u98DF\u5EFA\u8B70\u5C07\u6703\u4FC3\u9032\uFF0C\u800C\u76F8\u53CD\u7684\u5BCC\u542B\u03C9-3 \u8102\u80AA\u9178\u7684\u98F2\u98DF\u5EFA\u8B70\u5247\u5C07\u6703\u6291\u5236\u767C\u708E\u4EE5\u53CA\u904E\u654F\u53CD\u61C9\u3001\u52D5\u8108\u7CA5\u6A23\u786C\u5316\u3001\u9AD8\u8840\u58D3\u3001\u764C\u75C7\u589E\u9577\uFF0C\u4EE5\u53CA\u5176\u4ED6\u81F4\u75C5\u904E\u7A0B\u3002"@zh , "Eikozanoidy, ikozanoidy (gr. \u03B5\u1F34\u03BA\u03BF\u03C3\u03B9, eikosi = dwadzie\u015Bcia, czyli zawieraj\u0105ce 20 atom\u00F3w w\u0119gla) \u2013 grupa organicznych zwi\u0105zk\u00F3w chemicznych b\u0119d\u0105cych produktami przemian niezb\u0119dnych nienasyconych kwas\u00F3w t\u0142uszczowych (NNKT): \n* kwasu arachidonowego, \n* kwasu linolowego, \n* i kwasu \u03B1-linolenowego. Podzia\u0142 eikozanoid\u00F3w: \n* prostanoidy: \n* prostaglandyny (skr\u00F3t: PG) \n* prostacykliny (PGI) \n* tromboksany (TX) \n* leukotrieny (LT) \n* lipoksyny (LX) Eikozanoidy wykazuj\u0105 znaczn\u0105 aktywno\u015B\u0107 i spe\u0142niaj\u0105 bardzo wiele istotnych metabolicznie funkcji. S\u0105 obecne w bardzo wielu r\u00F3\u017Cnego rodzaju tkankach. Wa\u017Cnym szlakiem metabolicznym jest znajduj\u0105cy si\u0119 w fosfolipidach b\u0142on kom\u00F3rkowych kwas arachidonowy, kt\u00F3ry za pomoc\u0105 A2 jest uwalniany z . Kwas arachidonowy staje si\u0119 substratem dla dw\u00F3ch wa\u017Cnych enzym\u00F3w: cyklooksygenazy (COX) i 5'-lipooksygenazy. Cyklooksygenaza wyst\u0119puje w dw\u00F3ch izoformach: \n* COX-1 \u2013 cyklooksygenaza konstytutywna, \n* COX-2 \u2013 cyklooksygenaza indukowalna, jej aktywno\u015B\u0107 gwa\u0142townie wzrasta w stanach zapalnych, Produktem cyklooksygenazy jest prostaglandyna PGG przekszta\u0142cana do PGH2, b\u0119d\u0105ca macierzystym zwi\u0105zkiem chemicznym, z kt\u00F3rego powstaj\u0105 prostaglandyny, prostacykliny i tromboksany."@pl , "Eikosanoid adalah molekul pensinyalan yang dibuat oleh oksidasi enzimatik dan non-enzimatik asam arakidonat atau asam lemak tak jenuh ganda (PUFA) lainnya, yang mirip dengan asam arakidonat, dengan panjang 20 unit karbon. Eikosanoid adalah sub-kategori oksilipin, yaitu asam lemak teroksidasi dari unit karbon yang beragam panjangnya, dan dibedakan dari oksilipin lain dengan kepentingannya yang luar biasa sebagai molekul pensinyalan sel. Fungsi eikosanoid dalam sistem fisiologis yang beragam dan proses patologis seperti: mendorong atau menghambat peradangan, alergi, demam, dan respons imun lainnya; mengatur aborsi kehamilan dan persalinan normal; berkontribusi terhadap persepsi nyeri; mengatur pertumbuhan sel; mengendalikan tekanan darah; dan memodulasi aliran regional darah ke jaringan. Dalam menjalankan peran ini, eikosanoid paling sering bertindak sebagai agen pensinyalan autokrin untuk memengaruhi sel asal mereka atau sebagai agen pensinyalan parakrin untuk memengaruhi sel di dekat sel asal mereka. Eikosanoid juga dapat bertindak sebagai agen endokrin untuk mengontrol fungsi sel yang jauh."@in , "Eikosanoideak lipidoen taldeko substantziak dira, 20 karbonotako gantz-azidoak oxidatuz eratzen direnak. Zelulen arteko komunikazio bide konplexuetan hartzen dute parte."@eu , "\uC5D0\uC774\uCF54\uC0AC\uB178\uC774\uB4DC(Eicosanoid)\uB294 \uC544\uB77C\uD0A4\uB3C8\uC0B0 \uB4F1 \uC758 \uC0B0\uD654\uB85C \uD615\uC131\uB418\uB294 (Lipid signaling) \uBB3C\uC9C8\uC774\uB2E4."@ko , "Eikosanoid \u010Di ikosanoid (\u0159ec. eikosa\u2013dvacet) je produkt metabolismu dvacetiuhl\u00EDkat\u00FDch mastn\u00FDch kyselin, zejm\u00E9na kyseliny arachidonov\u00E9. Eikosanoidy vznikaj\u00ED p\u0159edev\u0161\u00EDm \u00FA\u010Dinkem enzym\u016F cyklooxygen\u00E1zy, cytochromu P450, \u010Di neenzymaticky v jin\u00FDch metabolick\u00FDch cest\u00E1ch. A\u010D je tato definice pom\u011Brn\u011B \u0161irok\u00E1, b\u011B\u017En\u011B se k eikosanoid\u016Fm \u0159ad\u00ED hlavn\u011B a t\u0159i skupiny : prostaglandiny, a . Teoreticky v\u0161ak k eikosanoid\u016Fm mohou b\u00FDt \u0159azeny i dal\u0161\u00ED l\u00E1tky, jako , resolviny, , , , , (EET) a endokanabinoidy. Leukotrieny a prostanoidy jsou n\u011Bkdy ozna\u010Dov\u00E1ny jako \u201Eklasick\u00E9 eikosanoidy\u201C, zat\u00EDmco ostatn\u00ED jmenovan\u00E9 se ozna\u010Duj\u00ED jako \u201Eneobvykl\u00E9\u201C (angl. \u201Enovel\u201C \u010Di \u201Enon-classic\u201C). Eikosanoidy jsou vnitrobun\u011B\u010Dn\u00E9 signaliza\u010Dn\u00ED molekuly (tzv. autokrinn\u00ED), kter\u00E9 ovliv\u0148uj\u00ED svalov\u00FD stah, sr\u00E1\u017Een\u00ED krve, bolest \u010Di nap\u0159\u00EDklad z\u00E1n\u011Bt."@cs , "Als Eicosanoide (v. griech. \u03B5\u03AF\u03BA\u03BF\u03C3\u03B9, \u201Azwanzig\u2018), auch Eikosanoide, wird eine Gruppe von hydrophoben hormon\u00E4hnlichen Substanzen bezeichnet, die aus mehrfach unges\u00E4ttigten Fetts\u00E4uren gebildet wurden. Sie k\u00F6nnen als intra- und extrazellul\u00E4re Signalmolek\u00FCle wirken und sind in eine Vielzahl biologischer Wirkmechanismen eingebunden. Obwohl die Bezeichnung Eicosanoide auf eine Anzahl von 20 Kohlenstoff-Atomen im Molek\u00FCl hinweist, werden zu den Eicosanoiden auch Derivate anderer Fetts\u00E4uren gez\u00E4hlt, die k\u00FCrzer- oder l\u00E4ngerkettig sind, beispielsweise die Derivate der Docosahexaens\u00E4ure und der Linols\u00E4ure."@de , "Gli eicosanoidi sono lipidi con funzione ormone-simile derivati dell'acido arachidonico, un acido grasso a 20 atomi di carbonio. In generale, la loro funzione biologica riguarda la regolazione dei meccanismi locali coinvolti durante la flogosi (come per esempio la regolazione della vasocostrizione o della vasodilatazione). La sintesi degli eicosanoidi viene effettuata localmente nei tessuti in cui verr\u00E0 successivamente espletata la loro azione (sono perci\u00F2 autacoidi); l'acido arachidonico viene liberato dai fosfolipidi di membrana - dove si trova compattato come estere nella coda idrofobica - dall'enzima Fosfolipasi A2 che agisce a livello del C2 dei fosfolipidi. In genere con il termine eicosanoide ci si riferisce ai cosiddetti \"eicosanoidi classici\", ovvero i derivati dell'acido arachidonico appartenenti ai leucotrieni e a tre classi dei prostanoidi: prostaglandine, prostacicline e trombossani. Per evitare ambiguit\u00E0, per i derivati dell'acido arachidonico appartenenti ad altre classi, con funzione e struttura differenti da quelle precedentemente citate, sarebbe opportuno utilizzare il termine \"eicosanoidi nuovi\" o \"non-classici\"."@it , "En bioqu\u00EDmica, icosanoide \u00E9s el nom general d'un grup de mol\u00E8cules de constituci\u00F3 lip\u00EDdica obtingudes de l'oxigenaci\u00F3 dels \u00E0cids grassos essencials de 20 carbonis tipus omega-3 i omega-6. Compleixen \u00E0mplies funcions com mediadors per al sistema nervi\u00F3s central, la inflamaci\u00F3 i la resposta immunit\u00E0ria tant de vertebrats com invertebrats. Tots els icosanoides s\u00F3n mol\u00E8cules de 20 \u00E0toms de carboni i estan agrupats en prostaglandines, tromboxans, , i certs precursors dels leucotriens. Constitueixen les mol\u00E8cules que intervenen en les xarxes de comunicaci\u00F3 cel\u00B7lular m\u00E9s complexes de l'organisme animal, incloent l'\u00E9sser hum\u00E0."@ca , "Les eicosano\u00EFdes (du grec ancien \u03B5\u1F34\u03BA\u03BF\u03C3\u03B9 / e\u00EDkosi , signifiant \u00AB vingt \u00BB) ou icosano\u00EFdes constituent une vaste famille de d\u00E9riv\u00E9s d'oxydation d'acides gras polyinsatur\u00E9s \u00E0 20 atomes decarbone comme l'acide arachidonique (C20:4 (\u03C9-6)). Ils peuvent \u00EAtre cycliques ou lin\u00E9aires (leucotri\u00E8nes). On distingue deux types d\u2019eicosano\u00EFdes : \n* les leucotri\u00E8nes (LT) ; \n* les prostano\u00EFdes, parmi lesquelles : \n* les prostaglandines (PG), \n* les thromboxanes (TX), \n* les prostacyclines (PGI)."@fr . @prefix gold: . dbr:Eicosanoid gold:hypernym dbr:Molecules . @prefix prov: . dbr:Eicosanoid prov:wasDerivedFrom . @prefix xsd: . dbr:Eicosanoid dbo:wikiPageLength "85670"^^xsd:nonNegativeInteger . @prefix wikipedia-en: . dbr:Eicosanoid foaf:isPrimaryTopicOf wikipedia-en:Eicosanoid .