About: Myristoylation

Property	Value
dbo:abstract	Myristoylierung (auch N-Myristoylierung oder Myristylierung genannt) ist der Prozess, bei dem Myristinsäure (Myristat) an den N-terminalen Glycinrest von Proteinen angehängt wird. Das Anhängen dieser Fettsäure geschieht sehr spezifisch und ist eine wichtige meistens cotranslationale aber auch posttranslationale Modifikation von Proteinen. Myristinsäure wird irreversibel an ein N-terminales Glycin durch die sogenannte N-Myristoyltransferase gekoppelt. Dieser Prozess vollzieht sich in der Regel direkt nach einer spezifischen Proteolyse, d. h. Enzyme spalten das Protein, so dass ein Peptid mit N-terminalem Glycin entsteht (oftmals wird nur das initiale Methionin abgespalten). N-Myristoylierung vermittelt schwache, reversible Interaktionen mit der Zellmembran und anderen Proteinen. Über die Myristoylierung lässt sich zusätzlich der Transport und die Lokalisation von Proteinen steuern. Ein Beispiel für myristoylierte Proteine sind die Src-Kinase-Familie, etliche G-Proteine und andere. Bei Pflanzen spielt Myristoylierung auch eine wichtige Rolle in der Signaltransduktion bei der Reaktion auf Stress. (de) Myristoylation is a lipidation modification where a myristoyl group, derived from myristic acid, is covalently attached by an amide bond to the alpha-amino group of an N-terminal glycine residue. Myristic acid is a 14-carbon saturated fatty acid (14:0) with the systematic name of n-Tetradecanoic acid. This modification can be added either co-translationally or post-translationally. N-myristoyltransferase (NMT) catalyzes the myristic acid addition reaction in the cytoplasm of cells. This lipidation event is the most found type of fatty acylation and is common among many organisms including animals, plants, fungi, protozoans and viruses. Myristoylation allows for weak protein–protein and protein–lipid interactions and plays an essential role in membrane targeting, protein–protein interactions and functions widely in a variety of signal transduction pathways. (en) L'association de la fonction acide carboxylique (COOH) d'un acide myristique (acide gras à 14 carbones) et d'un groupement amine forme une liaison amide au niveau N-terminal d'un acide aminé glycine. Elle permet la fixation d'une protéine sur la face intracellulaire de la membrane plasmique d'une cellule. C'est une modification post-traductionelle qui s'effectue dans le réticulum endoplasmique rugueux. Cette réaction est irréversible. Il est possible d'observer cela pour les protéines de l'enveloppe du virus VIH. * Portail de la biologie cellulaire et moléculaire (fr) ミリストイル化（ミリストイルか、Myristoylation）は、不可逆的なタンパク質の翻訳後修飾で、動物、植物、真菌、ウイルスで見られる。この翻訳後修飾において、ミリストイル基（ミリスチン酸から誘導される）は、発生期のポリペプチドのN末端グリシン残基のα-アミノ基とアミド結合で結合される。この修飾はによって触媒され、通常は同時翻訳によるN末端のメチオニン除去の間に露わになったグリシン残基に起こる。また、ミリストイル化はアポトーシスでカスパーゼが分裂する前にその内部のグリシン残基に起こる。 (ja) Myristylering of myristoylatie (ook N-myristoylering genoemd) is het proces waarbij myristinezuur aan de N-terminale glycinerest van eiwitten vastgemaakt wordt. Het vastmaken van dit vetzuur is zeer specifiek en is een belangrijke en meestal cotranslationele modificatie van eiwitten, maar ook posttranslationele modificatie van eiwitten komt voor. Myristinezuur wordt door het zogenaamde irreversibel aan een N-terminaal glycine gekoppeld. Dit proces voltrekt zich in de regel direct na een specifieke proteolyse, wat wil zeggen dat het enzym het eiwit zo splitst dat een peptide met het N-terminale glycine ontstaat (vaak wordt alleen het initiële methionine afgesplitst). N-myristoylatie maakt zwakke, reversibele interacties met het celmembraan en andere eiwitten mogelijk. Via de myristoylatie wordt het transport en de lokalisatie van eiwitten geregeld. Voorbeelden van gemyristoyleerde eiwitten zijn de Src kinase-familie en ettelijke G-proteïnen. Bij planten speelt myristoylatie ook een belangrijke rol in de signaaltransductie bij de reactie op stress. (nl) A miristoilação é um mecanismo de acilação específico à glicina da porção N-terminal de proteínas. É um processo que ocorre em diversas proteínas, de eucariotos inferiores e superiores, consistindo na ligação covalente de um miristato, um ácido graxo de 14 carbonos, à glicina da porção N-terminal. As proteínas N-miristoiladas possuem diversas funções biológicas e seus representantes mais comuns incluem serina/treonina quinases, tirosina quinases, substrato quinases, fosfoproteína fosfatases, outros tipos de proteínas envolvidas em cascatas de sinais de transdução e mediadores de transporte de proteínas e vesículas. Proteínas N-miristoiladas possuem diversos destinos intracelulares e o miristoil possui um papel crítico nas mediações de interações proteína-proteína e proteína-membrana. A N-miristoilação, em geral, é uma modificação proteica irreversível que foi observada em eucariotos pela primeira vez em 1982 e antecede uma segunda mudança pós-traducional que é a remoção da metionina na posição 1. Em geral, esta modificação proteica ocorre co-translacionalmente após a remoção de um resíduo inicial de metionina por metionilaminopeptidases . Entretanto, a miristoilação também pode apresentar-se como evento pós-traducional, como no caso da proteína de organização e compactação do complexo de Golgi (do inglês Golgi Reassembly and Stacking Protein- GRASP). Tipicamente, o miristato apresenta um papel importante em mecanismos de regulação do direcionamento e função de proteínas. Algumas proteínas utilizam de "interruptor miristoil", onde a associação do miristato com a membrana é promovida por interações eletrostáticas com cadeias polipeptídicas positivamente carregadas e fosfolipídeos de carga negativa. Em outras proteínas N-miristoiladas, o ancoramento de um ligante produz uma mudança conformacional que expõe ou sequestra a cadeia acil. (pt) 豆蔻酰化（英語：Myristoylation）是一种蛋白质翻译后修饰方式，豆蔻酰基基团来自于肉豆蔻酸，共价结合到肽链N-末端甘氨酸残基的α-氨基上。肉豆蔻酸是一种14-碳饱和脂肪酸(14:0) ，或称为“正十四烷酸”（n-Tetradecanoic acid）。豆蔻酰化这种翻译后修饰方式被称为“共翻译修饰”（co-translationally），在细胞质中由完成，是最常见的脂肪酰化反应，普遍存在于各种真核生物中，与蛋白-蛋白相互作用、蛋白-脂质相互作用有关。 (zh)
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dbp:caption	Positive residues on the protein interact with negatively charged phospholipids on the membrane stabilizing myristoyl-dependent membrane association. (en) Upon ligand binding to a myristoylated protein, the myristoyl group is exposed and available to associate with the membrane. (en)
dbp:image	Myristoylelectrostaticswitch.jpg (en) Myristoylligandswitch.jpg (en)
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rdfs:comment	L'association de la fonction acide carboxylique (COOH) d'un acide myristique (acide gras à 14 carbones) et d'un groupement amine forme une liaison amide au niveau N-terminal d'un acide aminé glycine. Elle permet la fixation d'une protéine sur la face intracellulaire de la membrane plasmique d'une cellule. C'est une modification post-traductionelle qui s'effectue dans le réticulum endoplasmique rugueux. Cette réaction est irréversible. Il est possible d'observer cela pour les protéines de l'enveloppe du virus VIH. * Portail de la biologie cellulaire et moléculaire (fr) ミリストイル化（ミリストイルか、Myristoylation）は、不可逆的なタンパク質の翻訳後修飾で、動物、植物、真菌、ウイルスで見られる。この翻訳後修飾において、ミリストイル基（ミリスチン酸から誘導される）は、発生期のポリペプチドのN末端グリシン残基のα-アミノ基とアミド結合で結合される。この修飾はによって触媒され、通常は同時翻訳によるN末端のメチオニン除去の間に露わになったグリシン残基に起こる。また、ミリストイル化はアポトーシスでカスパーゼが分裂する前にその内部のグリシン残基に起こる。 (ja) 豆蔻酰化（英語：Myristoylation）是一种蛋白质翻译后修饰方式，豆蔻酰基基团来自于肉豆蔻酸，共价结合到肽链N-末端甘氨酸残基的α-氨基上。肉豆蔻酸是一种14-碳饱和脂肪酸(14:0) ，或称为“正十四烷酸”（n-Tetradecanoic acid）。豆蔻酰化这种翻译后修饰方式被称为“共翻译修饰”（co-translationally），在细胞质中由完成，是最常见的脂肪酰化反应，普遍存在于各种真核生物中，与蛋白-蛋白相互作用、蛋白-脂质相互作用有关。 (zh) Myristoylierung (auch N-Myristoylierung oder Myristylierung genannt) ist der Prozess, bei dem Myristinsäure (Myristat) an den N-terminalen Glycinrest von Proteinen angehängt wird. Das Anhängen dieser Fettsäure geschieht sehr spezifisch und ist eine wichtige meistens cotranslationale aber auch posttranslationale Modifikation von Proteinen. (de) Myristoylation is a lipidation modification where a myristoyl group, derived from myristic acid, is covalently attached by an amide bond to the alpha-amino group of an N-terminal glycine residue. Myristic acid is a 14-carbon saturated fatty acid (14:0) with the systematic name of n-Tetradecanoic acid. This modification can be added either co-translationally or post-translationally. N-myristoyltransferase (NMT) catalyzes the myristic acid addition reaction in the cytoplasm of cells. This lipidation event is the most found type of fatty acylation and is common among many organisms including animals, plants, fungi, protozoans and viruses. Myristoylation allows for weak protein–protein and protein–lipid interactions and plays an essential role in membrane targeting, protein–protein interacti (en) Myristylering of myristoylatie (ook N-myristoylering genoemd) is het proces waarbij myristinezuur aan de N-terminale glycinerest van eiwitten vastgemaakt wordt. Het vastmaken van dit vetzuur is zeer specifiek en is een belangrijke en meestal cotranslationele modificatie van eiwitten, maar ook posttranslationele modificatie van eiwitten komt voor. (nl) A miristoilação é um mecanismo de acilação específico à glicina da porção N-terminal de proteínas. É um processo que ocorre em diversas proteínas, de eucariotos inferiores e superiores, consistindo na ligação covalente de um miristato, um ácido graxo de 14 carbonos, à glicina da porção N-terminal. As proteínas N-miristoiladas possuem diversas funções biológicas e seus representantes mais comuns incluem serina/treonina quinases, tirosina quinases, substrato quinases, fosfoproteína fosfatases, outros tipos de proteínas envolvidas em cascatas de sinais de transdução e mediadores de transporte de proteínas e vesículas. Proteínas N-miristoiladas possuem diversos destinos intracelulares e o miristoil possui um papel crítico nas mediações de interações proteína-proteína e proteína-membrana. A N-m (pt)
rdfs:label	Myristoylierung (de) Myristoylation (fr) ミリストイル化 (ja) Myristoylation (en) Myristylering (nl) Miristoilação (pt) 豆蔻酰化 (zh)
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