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Journal Abstract Search

265 related items for PubMed ID: 25140151

  • 1. Age-Dependent Modifications of AMPA Receptor Subunit Expression Levels and Related Cognitive Effects in 3xTg-AD Mice.
    Cantanelli P, Sperduti S, Ciavardelli D, Stuppia L, Gatta V, Sensi SL.
    Front Aging Neurosci; 2014; 6():200. PubMed ID: 25140151
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  • 2. Differential expression of entorhinal cortex and hippocampal subfields α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and N-methyl-D-aspartate (NMDA) receptors enhanced learning and memory of rats following administration of Centella asiatica.
    Wong JH, Muthuraju S, Reza F, Senik MH, Zhang J, Mohd Yusuf Yeo NAB, Chuang HG, Jaafar H, Yusof SR, Mohamad H, Tengku Muhammad TS, Ismail NH, Husin SS, Abdullah JM.
    Biomed Pharmacother; 2019 Feb; 110():168-180. PubMed ID: 30469081
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  • 3. The Q/R editing site of AMPA receptor GluA2 subunit acts as an epigenetic switch regulating dendritic spines, neurodegeneration and cognitive deficits in Alzheimer's disease.
    Wright AL, Konen LM, Mockett BG, Morris GP, Singh A, Burbano LE, Milham L, Hoang M, Zinn R, Chesworth R, Tan RP, Royle GA, Clark I, Petrou S, Abraham WC, Vissel B.
    Mol Neurodegener; 2023 Sep 28; 18(1):65. PubMed ID: 37759260
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  • 4. The essential role of AMPA receptor GluR2 subunit RNA editing in the normal and diseased brain.
    Wright A, Vissel B.
    Front Mol Neurosci; 2012 Sep 28; 5():34. PubMed ID: 22514516
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  • 5. Sexually dimorphic long-term effects of an early life experience on AMPA receptor subunit expression in rat brain.
    Katsouli S, Stamatakis A, Giompres P, Kouvelas ED, Stylianopoulou F, Mitsacos A.
    Neuroscience; 2014 Jan 17; 257():49-64. PubMed ID: 24211798
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  • 7. Novel Regulation of the Synthesis of α-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid (AMPA) Receptor Subunit GluA1 by Carnitine Palmitoyltransferase 1C (CPT1C) in the Hippocampus.
    Fadó R, Soto D, Miñano-Molina AJ, Pozo M, Carrasco P, Yefimenko N, Rodríguez-Álvarez J, Casals N.
    J Biol Chem; 2015 Oct 16; 290(42):25548-60. PubMed ID: 26338711
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  • 8. GluA3 subunits are required for appropriate assembly of AMPAR GluA2 and GluA4 subunits on cochlear afferent synapses and for presynaptic ribbon modiolar-pillar morphology.
    Rutherford MA, Bhattacharyya A, Xiao M, Cai HM, Pal I, Rubio ME.
    Elife; 2023 Jan 17; 12():. PubMed ID: 36648432
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  • 9. Preferential generation of Ca2+-permeable AMPA receptors by AKAP79-anchored protein kinase C proceeds via GluA1 subunit phosphorylation at Ser-831.
    Summers KC, Bogard AS, Tavalin SJ.
    J Biol Chem; 2019 Apr 05; 294(14):5521-5535. PubMed ID: 30737285
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  • 10. Mutually Dependent Clustering of SynDIG4/PRRT1 and AMPA Receptor Subunits GluA1 and GluA2 in Heterologous Cells and Primary Neurons.
    Plambeck KE, He CW, Navarro HH, Díaz E.
    Front Mol Neurosci; 2022 Apr 05; 15():788620. PubMed ID: 35465096
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  • 11. A new mouse line with reduced GluA2 Q/R site RNA editing exhibits loss of dendritic spines, hippocampal CA1-neuron loss, learning and memory impairments and NMDA receptor-independent seizure vulnerability.
    Konen LM, Wright AL, Royle GA, Morris GP, Lau BK, Seow PW, Zinn R, Milham LT, Vaughan CW, Vissel B.
    Mol Brain; 2020 Feb 27; 13(1):27. PubMed ID: 32102661
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  • 12. α2δ-1 protein promotes synaptic expression of Ca2+ permeable-AMPA receptors by inhibiting GluA1/GluA2 heteromeric assembly in the hypothalamus in hypertension.
    Zhou JJ, Shao JY, Chen SR, Chen H, Pan HL.
    J Neurochem; 2022 Apr 27; 161(1):40-52. PubMed ID: 35038178
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  • 14. TrkB activation by 7, 8-dihydroxyflavone increases synapse AMPA subunits and ameliorates spatial memory deficits in a mouse model of Alzheimer's disease.
    Gao L, Tian M, Zhao HY, Xu QQ, Huang YM, Si QC, Tian Q, Wu QM, Hu XM, Sun LB, McClintock SM, Zeng Y.
    J Neurochem; 2016 Feb 27; 136(3):620-36. PubMed ID: 26577931
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