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ab64193 has been referenced in 30 publications.

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  • Li H  et al. Defect of branched-chain amino acid metabolism promotes the development of Alzheimer's disease by targeting the mTOR signaling. Biosci Rep 38:N/A (2018). PubMed: 29802157
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  • Gorshkov K  et al. AKAP-mediated feedback control of cAMP gradients in developing hippocampal neurons. Nat Chem Biol 13:425-431 (2017). Rat . PubMed: 28192412
  • Diling C  et al. Docking Studies and Biological Evaluation of a Potential ß-Secretase Inhibitor of 3-Hydroxyhericenone F from Hericium erinaceus. Front Pharmacol 8:219 (2017). PubMed: 28553224
  • Liu J  et al. Roscovitine, a CDK5 Inhibitor, Alleviates Sevoflurane-Induced Cognitive Dysfunction via Regulation Tau/GSK3ß and ERK/PPAR?/CREB Signaling. Cell Physiol Biochem 44:423-435 (2017). PubMed: 29141245
  • Yue T  et al. Computational integration of nanoscale physical biomarkers and cognitive assessments for Alzheimer's disease diagnosis and prognosis. Sci Adv 3:e1700669 (2017). PubMed: 28782028
  • Yang SH  et al. Nec-1 alleviates cognitive impairment with reduction of Aß and tau abnormalities in APP/PS1 mice. EMBO Mol Med 9:61-77 (2017). WB ; Mouse . PubMed: 27861127
  • Hoffman JR  et al. Behavioral and inflammatory response in animals exposed to a low-pressure blast wave and supplemented with ß-alanine. Amino Acids 49:871-886 (2017). IF ; Rat . PubMed: 28161798
  • Magistri M  et al. The BET-Bromodomain Inhibitor JQ1 Reduces Inflammation and Tau Phosphorylation at Ser396 in the Brain of the 3xTg Model of Alzheimer's Disease. Curr Alzheimer Res 13:985-95 (2016). WB ; Mouse . PubMed: 27117003
  • Luo J  et al. A multifunctional therapeutic approach to disease modification in multiple familial mouse models and a novel sporadic model of Alzheimer's disease. Mol Neurodegener 11:35 (2016). Mouse . PubMed: 27129593
  • Hughson AG  et al. Inactivation of Prions and Amyloid Seeds with Hypochlorous Acid. PLoS Pathog 12:e1005914 (2016). WB ; Mouse . PubMed: 27685252
  • Tong M  et al. T3D-959: A Multi-Faceted Disease Remedial Drug Candidate for the Treatment of Alzheimer's Disease. J Alzheimers Dis 51:123-38 (2016). PubMed: 26836193
  • Kaufman SK  et al. Tau Prion Strains Dictate Patterns of Cell Pathology, Progression Rate, and Regional Vulnerability In Vivo. Neuron 92:796-812 (2016). PubMed: 27974162
  • Covarrubias-Pinto A  et al. Beyond the redox imbalance: Oxidative stress contributes to an impaired GLUT3 modulation in Huntington's disease. Free Radic Biol Med 89:1085-96 (2015). PubMed: 26456058
  • Takeda S  et al. Neuronal uptake and propagation of a rare phosphorylated high-molecular-weight tau derived from Alzheimer's disease brain. Nat Commun 6:8490 (2015). Dot blot . PubMed: 26458742
  • Sample V  et al. Polarized activities of AMPK and BRSK in primary hippocampal neurons. Mol Biol Cell 26:1935-46 (2015). ICC ; Mouse . PubMed: 25788287
  • Speranza L  et al. Activation of 5-HT7 receptor stimulates neurite elongation through mTOR, Cdc42 and actin filaments dynamics. Front Behav Neurosci 9:62 (2015). ICC/IF ; Mouse . PubMed: 25814944
  • Mirbaha H  et al. Tau Trimers Are the Minimal Propagation Unit Spontaneously Internalized to Seed Intracellular Aggregation. J Biol Chem 290:14893-903 (2015). PubMed: 25887395
  • D'Souza Y  et al. Characterization of Aldh2 (-/-) mice as an age-related model of cognitive impairment and Alzheimer's disease. Mol Brain 8:27 (2015). WB, Dot blot ; Mouse . PubMed: 25910195
  • Sanders DW  et al. Distinct tau prion strains propagate in cells and mice and define different tauopathies. Neuron 82:1271-88 (2014). PubMed: 24857020
  • Yang S  et al. Mitochondrial dysfunction driven by the LRRK2-mediated pathway is associated with loss of Purkinje cells and motor coordination deficits in diabetic rat model. Cell Death Dis 5:e1217 (2014). WB ; Rat . PubMed: 24810053
  • Tak H  et al. Bimolecular fluorescence complementation; lighting-up tau-tau interaction in living cells. PLoS One 8:e81682 (2013). WB ; Human . PubMed: 24312574
  • Yanamandra K  et al. Anti-tau antibodies that block tau aggregate seeding in vitro markedly decrease pathology and improve cognition in vivo. Neuron 80:402-414 (2013). PubMed: 24075978
  • Kfoury N  et al. Trans-cellular Propagation of Tau Aggregation by Fibrillar Species. J Biol Chem 287:19440-51 (2012). WB ; Human . PubMed: 22461630
  • Aebischer J  et al. Necdin protects embryonic motoneurons from programmed cell death. PLoS One 6:e23764 (2011). ICC/IF ; Mouse . PubMed: 21912643
  • Bertrand J  et al. The pattern of human tau phosphorylation is the result of priming and feedback events in primary hippocampal neurons. Neuroscience 168:323-34 (2010). WB ; Human . PubMed: 20394726
  • Bertrand J  et al. The formation of tau pathological phospho-epitopes in the axon is prevented by the dephosphorylation of selective sites in primary hippocampal neurons over-expressing human tau. J Neurochem 114:1353-67 (2010). WB ; Human . PubMed: 20550628

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