Anti-Pyruvate Dehydrogenase E1-alpha subunit抗体[9H9AF5] (ab110330)

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ab110330 被引用在 22 文献中.

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  • Golias T  et al. Hypoxic repression of pyruvate dehydrogenase activity is necessary for metabolic reprogramming and growth of model tumours. Sci Rep 6:31146 (2016). WB ; Human . PubMed: 27498883
  • Buzelle SL  et al. The contribution of IL-6 to beta 3 adrenergic receptor mediated adipose tissue remodeling. Physiol Rep 3:N/A (2015). Mouse . PubMed: 25713332
  • Tso SC  et al. Structure-guided development of specific pyruvate dehydrogenase kinase inhibitors targeting the ATP-binding pocket. J Biol Chem 289:4432-43 (2014). WB . PubMed: 24356970
  • Ritchie IR  et al. Adiponectin is sufficient, but not required, for exercise-induced increases in the expression of skeletal muscle mitochondrial enzymes. J Physiol 592:2653-65 (2014). WB ; Mouse . PubMed: 24687585
  • Gao J  et al. CLUH regulates mitochondrial biogenesis by binding mRNAs of nuclear-encoded mitochondrial proteins. J Cell Biol 207:213-23 (2014). PubMed: 25349259
  • Mennes E  et al. Aging-Associated Reductions in Lipolytic and Mitochondrial Proteins in Mouse Adipose Tissue Are Not Rescued by Metformin Treatment. J Gerontol A Biol Sci Med Sci N/A:N/A (2013). Mouse . PubMed: 24127429
  • Xing G  et al. Impact of repeated stress on traumatic brain injury-induced mitochondrial electron transport chain expression and behavioral responses in rats. Front Neurol 4:196 (2013). WB ; Rat . PubMed: 24376434
  • Schilling B  et al. Platform-independent and label-free quantitation of proteomic data using MS1 extracted ion chromatograms in skyline: application to protein acetylation and phosphorylation. Mol Cell Proteomics 11:202-14 (2012). WB . PubMed: 22454539
  • Frier BC  et al. Interactions between the consumption of a high-fat diet and fasting in the regulation of fatty acid oxidation enzyme gene expression: an evaluation of potential mechanisms. Am J Physiol Regul Integr Comp Physiol 300:R212-21 (2011). PubMed: 21084676
  • Johnson F & Kaplitt MG Novel mitochondrial substrates of omi indicate a new regulatory role in neurodegenerative disorders. PLoS One 4:e7100 (2009). PubMed: 19763263
  • Rardin MJ  et al. Monitoring phosphorylation of the pyruvate dehydrogenase complex. Anal Biochem 389:157-64 (2009). PubMed: 19341700
  • Zhou Q  et al. Activation of c-Jun-N-terminal kinase and decline of mitochondrial pyruvate dehydrogenase activity during brain aging. FEBS Lett 583:1132-40 (2009). PubMed: 19272379
  • Missihoun C  et al. Myocardial oxidative stress, osteogenic phenotype, and energy metabolism are differentially involved in the initiation and early progression of delta-sarcoglycan-null cardiomyopathy. Mol Cell Biochem 321:45-52 (2009). PubMed: 18726675
  • Han Z  et al. A combined therapeutic approach for pyruvate dehydrogenase deficiency using self-complementary adeno-associated virus serotype-specific vectors and dichloroacetate. Mol Genet Metab 93:381-7 (2008). PubMed: 18206410
  • Zhou Q  et al. c-Jun N-terminal kinase regulates mitochondrial bioenergetics by modulating pyruvate dehydrogenase activity in primary cortical neurons. J Neurochem 104:325-35 (2008). PubMed: 17949412
  • Margineantu DH  et al. Hsp90 inhibition decreases mitochondrial protein turnover. PLoS One 2:e1066 (2007). PubMed: 17957250
  • Watson PA  et al. Restoration of CREB function is linked to completion and stabilization of adaptive cardiac hypertrophy in response to exercise. Am J Physiol Heart Circ Physiol 293:H246-59 (2007). PubMed: 17337597
  • Kumar V  et al. Activity of pyruvate dehydrogenase A (PDHA) in hamster spermatozoa correlates positively with hyperactivation and is associated with sperm capacitation. Biol Reprod 75:767-77 (2006). PubMed: 16855207