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neuron redox thiol state subunit oxidation treatment redox state nmdar pilo treatment hippocampal da neurons culture oxidative 1/2 protein activation intracellular redox state erk 1/2 phosphorylation receptor nr 2b subunit hippocampal neurons intracellular response di maio study epilepsy disease brain thiol oxidation control expression phosphorylation increase oxidative stress pilo-induced rotenone level / neurobiology pilo-induced thiol oxidation change analysis signi stress glutamate signal function nr 2b subunits snpc da neurons nr 2b result kinase 30 min ratio model pilocarpine neurosci ifenprodil method seizure nr 2a subunit nmdar activation epileptogenesi animal imaging exposure inhibitor cell death blot analysis neurobiology dopaminergic measure system production administration variance activity zebra fish larvae over-expression glutathione
3 Most Recent Publications
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Thiol oxidation and altered NR2B/NMDA receptor functions in in vitro and in vivo pilocarpine models: Implications for epileptogenesis
(Article)
Maio, R. di Mastroberardino, P.G. Hu, X. Montero, L. Greenamyre, J.T. |
2013-01-01
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Single-cell redox imaging demonstrates a distinctive response of dopaminergic neurons to oxidative insults
(Article)
Horowitz, M.P. Milanese, C. Burton, E.A. Greenamyre, J.T. Maio, R. di Hu, X. Montero, L. Sanders, L.H. Tapias, V. Sepe, S. Cappellen, W.A. van Mastroberardino, P.G. |
2011-08-15
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Pilocapine alters NMDA receptor expression and function in hippocampal neurons: NADPH oxidase and ERK1/2 mechanisms
(Article)
Maio, R. di Mastroberardino, P.G. Hu, X. Montero, L. Greenamyre, J.T. |
2011-06-01
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