About: Pyruvate dehydrogenase

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dbo:abstract	S'han reconegut fins avui tres tipus de piruvat deshidrogenasa. * Piruvat deshidrogenasa (acetil transferidora) o PDH. * Piruvat deshidrogenasa (NADP+). * Piruvat deshidrogenasa (citocrom). Els tres tipus, la seva funció és realitzar la descarboxilació oxidativa del piruvat a acetat desprenent-se diòxid de carboni. (ca) نازعة البيروفات (بالإنجليزية: Pyruvate dehydrogenase)‏.يختصر ب (E1)هو أول عنصر انزيمي من مجموعة نازعات البيروفات (PDC). نازعة البيروفات يساهم في تحويل البيروفات إلى أسيتيل التميم بواسطة عملية تسمى نزع كربوكسيل البيروفات . وبعدهاأسيتيل التميم يستخدم في دورة حمض الستريك لتنفيذ التنفس الخلوي ، نازعة البيروفات ذلك يساهم في ربط تحلل المسار الأيضي ل دورة حمض الستريك والإفراج عن الطاقة عن طريق ثنائي نوكليوتيد الأدنين وأميد النيكوتين. (ar) Pyruvatdehydrogenase E1 (PDHE1) ist der Name für die Untereinheit E1 des Pyruvatdehydrogenase-Enzymkomplexes. PDHE1 katalysiert die Übertragung eines Acetylrests auf das an die Untereinheit E2 gebundene Lipoyllysin, wobei ein Molekül Kohlenstoffdioxid frei wird. E1 selbst besteht aus zwei α- und zwei β-Untereinheiten. Von α gibt es beim Menschen eine zweite Isoform, die speziell in den Hoden exprimiert wird. Mutationen in den Genen, die für α und β kodieren (in α allein sind 80 bekannt), können PDHE1-Mangel bis hin zum Leigh-Syndrom und Laktatazidose verursachen. (de) Se han reconocido hasta la fecha tres tipos de piruvato deshidrogenasa. * Piruvato deshidrogenasa (acetil transferidora) o PDH. * Piruvato deshidrogenasa (NADP+). * Piruvato deshidrogenasa (citocromo). En los tres tipos, su función es realizar la descarboxilación oxidativa del piruvato a acetato desprendiéndose dióxido de carbono. Se necesitan 5 cofactores: TPP, A.lipoico, Coenzima A, FAD yNAD*. (es) La pyruvate déshydrogénase (ou PDH) — à ne pas confondre avec la pyruvate décarboxylase bien qu'on l'appelle parfois également ainsi — est la première des trois enzymes du complexe pyruvate déshydrogénase (PDC), constitué d'une décarboxylase, d'une acétyltransférase et d'une oxydoréductase intervenant séquentiellement pour catalyser la décarboxylation oxydative du pyruvate en acétyl-CoA, réaction qui assure notamment la liaison entre la glycolyse et le cycle de Krebs. Les autres enzymes de ce complexe sont la dihydrolipoamide S-acétyltransférase (E2) et la dihydrolipoyl déshydrogénase (E3). La PDH est inhibée par la PDHK (ou pyruvate déshydrogénase kinase). (fr) Pyruvate dehydrogenase is an enzyme that catalyzes the reaction of pyruvate and a lipoamide to give the acetylated dihydrolipoamide and carbon dioxide. The conversion requires the coenzyme thiamine pyrophosphate. Pyruvate dehydrogenase is usually encountered as a component, referred to as E1, of the pyruvate dehydrogenase complex (PDC). PDC consists of other enzymes, referred to as E2 and E3. Collectively E1-E3 transform pyruvate, NAD+, coenzyme A into acetyl-CoA, CO2, and NADH. The conversion is crucial because acetyl-CoA may then be used in the citric acid cycle to carry out cellular respiration. To distinguish between this enzyme and the PDC, it is systematically called pyruvate dehydrogenase (acetyl-transferring). (en) Dehidrogenase piruvat (bahasa Inggris: pyruvate dehydrogenase, PDH, EC 1.2.4.1) adalah enzim jenis dehidrogenase yang merupakan komponen pertama pada kompleks piruvat dehidrogenase yang disebut E1. PDH menghambat lintasan oksidasi aerobik glukosa, asam laktat dan alanina. (in) 피루브산 탈수소 효소(Pyruvate dehydrogenase,PDH)는 미토콘드리아 기질(matrix) 내에서 피루브산을 아세틸-CoA와 CO2를 생성하는 산화적인 탈카복실화반응을 진행한다. PDH의 반응에는 NAD+가 관여한다. 이때 (free energy change)은 -33KJ/mole로 알려져있다. (ko) La piruvato deidrogenasi è un enzima mitocondriale, appartenente alla classe delle ossidoreduttasi, del complesso enzimatico della piruvato deidrogenasi (o Pyruvate Dehydrogenase Complex, abbreviato come PDC). Catalizza la seguente reazione: piruvato + lipoillisina ⇄ S- + CO2 La reazione catalizzata dal complesso consiste nella decarbossilazione ossidativa del piruvato ad acetil-CoA. Per questo motivo, il PDC costituisce un fondamentale punto di snodo nel metabolismo glucidico, dal momento che collega la glicolisi al ciclo di Krebs.Il complesso si compone di tre enzimi (piruvico decarbossilasi, diidrolipoil transacetilasi e diidrolipoil deidrogenasi) e di cinque coenzimi (in ordine di reazione: tiamina pirofosfato (TPP), acido lipoico, coenzima A, FAD e NAD+) Più nel dettaglio, il complesso PDC è formato da sei componenti strutturali costituite da 60 unità: 24 di piruvato deidrogenasi (E1), 24 di diidrolipoamide transacetilasi (E2) e 12 di diidrolipoamide deidrogenasi (E3). In essi vi sono inclusi la proteina di legame E3 (E3 binding protein, o E3BP), il complesso chinasico della piruvato deidrogenasi (PDK di E1) e il complesso fosfatasi della piruvato deidrogenasi (PDP di E1). La protein-chinasi PDK fosforila tre residui serinici in E1 mentre la fosfatasi PDP idroliticamente rimuove gli stessi gruppi dalle serine di E1. Inoltre alla struttura si associano, in particolare sulla componente E1 ed E3, i domini catalitici o inner catalytic domains (IC). Nell'uomo, l'enzima E2 possiede inoltre due domini lipoilici più esterni, L1 e L2, insieme a un dominio di connessione all'enzima E1 attraverso una sequenza amminoacidica di Alanina e Prolina che costituisce una catena di 20-30 amminoacidi. I domini L1 e L2 sono da considerarsi parte del complesso di un organismo animale; nel caso in cui si parli da un punto di vista batterico, per esempio di Escherichia coli, è presente un terzo dominio. Inoltre, sempre in quest'ultimi, si ha una connessione non solo tra E1 ed E2 ma anche tra E2 ed E3. La piruvato deidrogenasi catalizza quindi la reazione principale del processo. La tiamina pirofosfato (TPP), cofattore dell'enzima in E1, è infatti in grado di reagire inizialmente con il piruvato, generandone la decarbossilazione ossidativa. Il gruppo acetile (CH3C(O)-) diventa un idrossietile legato covalentemente a TPP. Nel passaggio successivo, l'idrossietil-TPP appena formato, diviene il substrato del secondo enzima del complesso multienzimatico, la diidrossilipoamide-transacetilasi la cui attività dipende dal coenzima acido lipoico nella sua forma ossidata caratterizzata dalla presenza di un ponte disolfuro (S-S): il trasferimento di due elettroni sull'acido lipoico determina la riduzione del ponte disolfuro a gruppi tiolici (SH). La diidrossilipoamide-transacetilasi catalizza il trasferimento del gruppo acetile su uno dei gruppi tiolici mediante la formazione di un legame tioestere e formazione di acetil diidrolipammide. Il coenzima TPP viene quindi liberato e reso disponibile per la catalisi di una nuova reazione. Il gruppo acetilico viene successivamente trasferito ad una molecola di coenzima A (CoA) caratterizzata anch'essa dalla presenza di un gruppo tiolico, formando acetil-CoA, mentre l'acido lipoico viene rilasciato nella sua forma ridotta. Notare che nella formazione dell'acetil-CoA a partire dall'acetil-diidrolipammide, viene rotto un legame tioestere per formarne uno stesso, in una reazione che, per questo motivo, non risulta essere molto difficile da parte della cellula.Nel momento in cui interviene il terzo enzima della piruvico deidrogenasi, la diidrolipoil-deidrogenasi, è già presente il prodotto ultimo della reazione (l'acetil-CoA), ma l'azione di questo enzima è finalizzata a riportare l'acido lipoico nella sua forma ossidata affinché possa essere disponibile alle successive medesime reazioni. La riossidazione dell'acido lipoico è resa possibile attraverso la riduzione del coenzima flavinico della diidrolipoamide deidrogenasi E3 (FAD a FADH2). Per lo stesso motivo, il FADH2 deve ritornare nella sua forma ossidata (FAD) tramite la cessione dei suoi equivalenti riducenti ad una molecola di nicotinammide-adenin-dinucleotide ossidato (NAD+) che viene quindi ridotto a NADH che può cedere i suoi equivalenti riducenti a livello della catena di trasporto degli elettroni mitocondriale. Il trasferimento elettronico dal FADH2 al NAD+ è in contrasto con i potenziali redox dei due coenzimi, tuttavia, il complesso multienzimatico della piruvico deidrogenasi è disposto in modo tale da creare un ambiente in cui il FAD viene ad avere un potenziale ossidoriduttivo minore di quello del NAD. L'attività della piruvato deidrogenasi è stimolata dal piruvato, Ca2+, insulina (quest'ultima avviene solo nel tessuto adiposo dove l'acetil-CoA è utilizzato per la biosintesi dei lipidi) e competitivamente inibita da ATP, NADH ed acetil-CoA. L'attività della piruvato deidrogenasi può essere ulteriormente regolata dall'azione di una proteina chinasi e una fosfoproteina fosforilasi, che fanno parte del complesso stesso. La proteina chinasi fosforila e inattiva l'enzima, dopo essere stata attivata allostericamete dall'ATP. Infatti quando i livelli di energia sono elevati la piruvato deidrogenasi viene inattivata per fosforilazione del complesso E1; la fosfoproteina fosfatasi interviene quando il livello di energia non è sufficiente rimuovendo i gruppi fosforici dal complesso E1 determinando la sua attivazione. (it) ピルビン酸デヒドロゲナーゼ (アセチル基転移)（pyruvate dehydrogenase (acetyl-transferring)）は、次の化学反応を触媒する酸化還元酵素である。ピルビン酸 + [ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]リポイルリシン [ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]S-アセチルジヒドロリポイルリシン + CO2 反応式の通り、この酵素の基質はピルビン酸と[ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]リポイルリシン、生成物は[ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]S-アセチルジヒドロリポイルリシンと二酸化炭素である。組織名はpyruvate:[dihydrolipoyllysine-residue acetyltransferase]-lipoyllysine 2-oxidoreductase (decarboxylating,acceptor-acetylating)である。 (ja) Pyruvaatdehydrogenase is het eerste enzym binnen het pyruvaatdehydrogenasecomplex (PDC). Het pyruvaatdehydrogenasecomplex is een samenstel van drie enzymen dat pyruvaat omzet in acetyl-CoA, een proces genaamd pyruvaatdecarboxylering. Acetyl-CoA wordt gebruikt in de citroenzuurcyclus tijdens celademhaling. Pyruvaatdehydrogenase katalyseert een belangrijke stap tussen de glycolyse en de citroenzuurcyclus. Het gen voor dit enzym ligt bij mensen op chromosoom 4. Pyruvaatdehydrogenase katalyseert de eerste twee reacties van de PDC: de decarboxylering van pyruvaat en de gelijktijdige acetylering van . Het liponzuur wordt daarbij covalent gebonden aan het tweede enzym binnen de PDC, genaamd dihydrolipoyltransacetylase. De reacties die door pyruvaatdehydrogenase wordt uitgevoerd, worden beschouwd als de snelheidsbepalende stap van de gehele PDC. Het actieve centrum van pyruvaatdehydrogenase is opgebouwd uit thiaminepyrofosfaat (TPP), dat de elektrofiele ketongroep van pyruvaat aanvalt. Na decarboxylering wordt het resulterende enol omgezet in een stabiele 1,3-dipolaire verbinding. (nl) A piruvato desidrogenase é o primeiro componente do complexo enzimático piruvato desidrogenase. EC 1.2.4.1. (pt) 丙酮酸脱羧（英語：Pyruvate decarboxylation），亦作丙酮酸氧化（英語：The Oxidation of Pyruvate），是一个将丙酮酸通过氧化脱羧反应而产生乙酰辅酶A并释放还原等效物还原型烟酰胺腺嘌呤二核苷酸与二氧化碳的远离平衡自动催化生化反应。它之所以被称为“链接反应”是因为它架起了糖酵解与三羧酸循环这两个重要代谢途径之间的桥梁。该反应常由作为有氧呼吸一部分的丙酮酸脱氢酶复合体所催化。在真核生物中，丙酮酸脱羧只在线粒体基质中发生；原核生物中的相似反应则是发生在胞浆和质膜上。 (zh)
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dbp:altsymbols	PDHA (en) PDHAL (en) PHE1B (en)
dbp:arm	p (en) q (en)
dbp:band	21.100000 (xsd:double) 22 (xsd:integer) 22.100000 (xsd:double)
dbp:caption	Crystallographic structure of pyruvate dehydrogenase . PH is a six domain dimer with α , α’ , β , and β’ regions denoted by the different colors. Thiamine pyrophosphate is shown in grey ball and stick form, two magnesium ions in purple undergoing metal ligation with the TPP, and two potassium ions in orange. (en)
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dbp:chromosome	3 (xsd:integer) 4 (xsd:integer) X (en)
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dbp:ecnumber	1.200000 (xsd:double)
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dbp:locussupplementarydata	-14.200000 (xsd:double) -q23 (en)
dbp:name	dbr:Pyruvate_dehydrogenase_(lipoamide)_alpha_2 dbr:Pyruvate_dehydrogenase_(lipoamide)_alpha_1 dbr:Pyruvate_dehydrogenase_(lipoamide)_beta pyruvate dehydrogenase (en)
dbp:omim	179060 (xsd:integer) 179061 (xsd:integer) 300502 (xsd:integer)
dbp:refseq	NM_000284 (en) NM_000925 (en) NM_005390 (en)
dbp:symbol	dbr:Pyruvate_dehydrogenase_(lipoamide)_alpha_2 dbr:Pyruvate_dehydrogenase_(lipoamide)_alpha_1 dbr:Pyruvate_dehydrogenase_(lipoamide)_beta
dbp:uniprot	P08559 (en) P11177 (en) P29803 (en)
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rdfs:comment	S'han reconegut fins avui tres tipus de piruvat deshidrogenasa. * Piruvat deshidrogenasa (acetil transferidora) o PDH. * Piruvat deshidrogenasa (NADP+). * Piruvat deshidrogenasa (citocrom). Els tres tipus, la seva funció és realitzar la descarboxilació oxidativa del piruvat a acetat desprenent-se diòxid de carboni. (ca) نازعة البيروفات (بالإنجليزية: Pyruvate dehydrogenase)‏.يختصر ب (E1)هو أول عنصر انزيمي من مجموعة نازعات البيروفات (PDC). نازعة البيروفات يساهم في تحويل البيروفات إلى أسيتيل التميم بواسطة عملية تسمى نزع كربوكسيل البيروفات . وبعدهاأسيتيل التميم يستخدم في دورة حمض الستريك لتنفيذ التنفس الخلوي ، نازعة البيروفات ذلك يساهم في ربط تحلل المسار الأيضي ل دورة حمض الستريك والإفراج عن الطاقة عن طريق ثنائي نوكليوتيد الأدنين وأميد النيكوتين. (ar) Pyruvatdehydrogenase E1 (PDHE1) ist der Name für die Untereinheit E1 des Pyruvatdehydrogenase-Enzymkomplexes. PDHE1 katalysiert die Übertragung eines Acetylrests auf das an die Untereinheit E2 gebundene Lipoyllysin, wobei ein Molekül Kohlenstoffdioxid frei wird. E1 selbst besteht aus zwei α- und zwei β-Untereinheiten. Von α gibt es beim Menschen eine zweite Isoform, die speziell in den Hoden exprimiert wird. Mutationen in den Genen, die für α und β kodieren (in α allein sind 80 bekannt), können PDHE1-Mangel bis hin zum Leigh-Syndrom und Laktatazidose verursachen. (de) Se han reconocido hasta la fecha tres tipos de piruvato deshidrogenasa. * Piruvato deshidrogenasa (acetil transferidora) o PDH. * Piruvato deshidrogenasa (NADP+). * Piruvato deshidrogenasa (citocromo). En los tres tipos, su función es realizar la descarboxilación oxidativa del piruvato a acetato desprendiéndose dióxido de carbono. Se necesitan 5 cofactores: TPP, A.lipoico, Coenzima A, FAD yNAD*. (es) Dehidrogenase piruvat (bahasa Inggris: pyruvate dehydrogenase, PDH, EC 1.2.4.1) adalah enzim jenis dehidrogenase yang merupakan komponen pertama pada kompleks piruvat dehidrogenase yang disebut E1. PDH menghambat lintasan oksidasi aerobik glukosa, asam laktat dan alanina. (in) 피루브산 탈수소 효소(Pyruvate dehydrogenase,PDH)는 미토콘드리아 기질(matrix) 내에서 피루브산을 아세틸-CoA와 CO2를 생성하는 산화적인 탈카복실화반응을 진행한다. PDH의 반응에는 NAD+가 관여한다. 이때 (free energy change)은 -33KJ/mole로 알려져있다. (ko) ピルビン酸デヒドロゲナーゼ (アセチル基転移)（pyruvate dehydrogenase (acetyl-transferring)）は、次の化学反応を触媒する酸化還元酵素である。ピルビン酸 + [ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]リポイルリシン [ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]S-アセチルジヒドロリポイルリシン + CO2 反応式の通り、この酵素の基質はピルビン酸と[ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]リポイルリシン、生成物は[ジヒドロリポイルリシン残基アセチルトランスフェラーゼ]S-アセチルジヒドロリポイルリシンと二酸化炭素である。組織名はpyruvate:[dihydrolipoyllysine-residue acetyltransferase]-lipoyllysine 2-oxidoreductase (decarboxylating,acceptor-acetylating)である。 (ja) A piruvato desidrogenase é o primeiro componente do complexo enzimático piruvato desidrogenase. EC 1.2.4.1. (pt) 丙酮酸脱羧（英語：Pyruvate decarboxylation），亦作丙酮酸氧化（英語：The Oxidation of Pyruvate），是一个将丙酮酸通过氧化脱羧反应而产生乙酰辅酶A并释放还原等效物还原型烟酰胺腺嘌呤二核苷酸与二氧化碳的远离平衡自动催化生化反应。它之所以被称为“链接反应”是因为它架起了糖酵解与三羧酸循环这两个重要代谢途径之间的桥梁。该反应常由作为有氧呼吸一部分的丙酮酸脱氢酶复合体所催化。在真核生物中，丙酮酸脱羧只在线粒体基质中发生；原核生物中的相似反应则是发生在胞浆和质膜上。 (zh) La pyruvate déshydrogénase (ou PDH) — à ne pas confondre avec la pyruvate décarboxylase bien qu'on l'appelle parfois également ainsi — est la première des trois enzymes du complexe pyruvate déshydrogénase (PDC), constitué d'une décarboxylase, d'une acétyltransférase et d'une oxydoréductase intervenant séquentiellement pour catalyser la décarboxylation oxydative du pyruvate en acétyl-CoA, réaction qui assure notamment la liaison entre la glycolyse et le cycle de Krebs. Les autres enzymes de ce complexe sont la dihydrolipoamide S-acétyltransférase (E2) et la dihydrolipoyl déshydrogénase (E3). (fr) Pyruvate dehydrogenase is an enzyme that catalyzes the reaction of pyruvate and a lipoamide to give the acetylated dihydrolipoamide and carbon dioxide. The conversion requires the coenzyme thiamine pyrophosphate. (en) La piruvato deidrogenasi è un enzima mitocondriale, appartenente alla classe delle ossidoreduttasi, del complesso enzimatico della piruvato deidrogenasi (o Pyruvate Dehydrogenase Complex, abbreviato come PDC). Catalizza la seguente reazione: piruvato + lipoillisina ⇄ S- + CO2 Inoltre alla struttura si associano, in particolare sulla componente E1 ed E3, i domini catalitici o inner catalytic domains (IC). (it) Pyruvaatdehydrogenase is het eerste enzym binnen het pyruvaatdehydrogenasecomplex (PDC). Het pyruvaatdehydrogenasecomplex is een samenstel van drie enzymen dat pyruvaat omzet in acetyl-CoA, een proces genaamd pyruvaatdecarboxylering. Acetyl-CoA wordt gebruikt in de citroenzuurcyclus tijdens celademhaling. Pyruvaatdehydrogenase katalyseert een belangrijke stap tussen de glycolyse en de citroenzuurcyclus. Het gen voor dit enzym ligt bij mensen op chromosoom 4. (nl)
rdfs:label	نازعة هيدروجين البيروفات (ar) Piruvat deshidrogenasa (ca) Pyruvatdehydrogenase E1 (de) Piruvato deshidrogenasa (es) Piruvat dehidrogenase (in) Pyruvate déshydrogénase (fr) Piruvato deidrogenasi (it) ピルビン酸デヒドロゲナーゼ (アセチル基転移) (ja) 피루브산 탈수소 효소 (ko) ピルビン酸デヒドロゲナーゼ (ja) Pyruvate dehydrogenase (en) Pyruvaatdehydrogenase (nl) Piruvato desidrogenase (pt) 丙酮酸脱羧 (zh)
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