Sho Fujisawa

Affiliations: 
New York University, New York, NY, United States 
Website:
http://www.cns.nyu.edu/~sho/
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"Sho Fujisawa"
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Chiye Aoki grad student 2006 NYU
 (Activity -dependent trafficking of NMDA receptors and the involvement of cytoskeletal proteins in intact adult rat cortex.)

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Jeyifous O, Waites CL, Specht CG, et al. (2009) SAP97 and CASK mediate sorting of NMDA receptors through a previously unknown secretory pathway. Nature Neuroscience. 12: 1011-9
Aoki C, Mahadomrongkul V, Fujisawa S, et al. (2007) Chemical and morphological alterations of spines within the hippocampus and entorhinal cortex precede the onset of Alzheimer's disease pathology in double knock-in mice. The Journal of Comparative Neurology. 505: 352-62
Fujisawa S, Shirao T, Aoki C. (2006) In vivo, competitive blockade of N-methyl-D-aspartate receptors induces rapid changes in filamentous actin and drebrin A distributions within dendritic spines of adult rat cortex. Neuroscience. 140: 1177-87
Kotak VC, Fujisawa S, Lee FA, et al. (2005) Hearing loss raises excitability in the auditory cortex. The Journal of Neuroscience : the Official Journal of the Society For Neuroscience. 25: 3908-18
Aoki C, Sekino Y, Hanamura K, et al. (2005) Drebrin A is a postsynaptic protein that localizes in vivo to the submembranous surface of dendritic sites forming excitatory synapses. The Journal of Comparative Neurology. 483: 383-402
Aoki C, Sekino Y, Hanamura K, et al. (2005) Erratum: Drebrin A is a postsynaptic protein that localizes in vivo to the submembranous surface of dendritic sites forming excitatory synapses. (Journal of Comparative Neurology (2005) 483 (383-402)) The Journal of Comparative Neurology. 486
Fujisawa S, Aoki C. (2003) In vivo blockade of N-methyl-D-aspartate receptors induces rapid trafficking of NR2B subunits away from synapses and out of spines and terminals in adult cortex. Neuroscience. 121: 51-63
Aoki C, Fujisawa S, Mahadomrongkul V, et al. (2003) NMDA receptor blockade in intact adult cortex increases trafficking of NR2A subunits into spines, postsynaptic densities, and axon terminals. Brain Research. 963: 139-49
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