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Details on Person Reversal of mitochondrial malate dehydrogenase 2 enables anaplerosis via redox rescue in respiration-deficient cells
| Class:Id | LiteratureReference:9953011 |
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| _displayName | Reversal of mitochondrial malate dehydrogenase 2 enables anaplerosis via redox rescue in respiration-deficient cells |
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| _timestamp | 2025-05-28 07:44:45 |
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| author | [Person:9953013] Altea-Manzano, Patricia
[Person:9953015] Vandekeere, Anke
[Person:9953009] Edwards-Hicks, Joy
[Person:9953014] Roldan, Mar
[Person:9953012] Abraham, Emily
[Person:9953001] Lleshi, Xhordi
[Person:9953004] Guerrieri, Ania Naila
[Person:9953005] Berardi, Domenica
[Person:9953010] Wills, Jimi
[Person:9953007] Junior, Jair Marques
[Person:9953002] Pantazi, Asimina
[Person:3222580] Acosta, Juan Carlos
[Person:9953006] Sanchez-Martin, Rosario M
[Person:9815673] Fendt, Sarah-Maria
[Person:9953008] Martin-Hernandez, Miguel
[Person:9953003] Finch, Andrew J |
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| created | [InstanceEdit:9953016] Stephan, Ralf, 2025-05-28 |
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| journal | Mol Cell |
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| pages | 4537-4547.e7 |
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| pubMedIdentifier | 36327975 |
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| title | Reversal of mitochondrial malate dehydrogenase 2 enables anaplerosis via redox rescue in respiration-deficient cells |
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| volume | 82 |
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| year | 2022 |
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| (literatureReference) | [Reaction:71783] MDH2 dimer reduces OA to MAL [Homo sapiens]
[Reaction:198508] MDH1 oxidizes MAL to OA [Homo sapiens] |
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