Dr. Naofumi Uesaka, PhD
 nao gro Position:
Post-Doc
VNO
Arbeitsbeginn:
Dezember 2015

Arbeitsgebiet:

Reproduktionsbiologie/Neurophysiologie

Methoden:

Live-Cell Imaging, Elektrophysiologie

Kontakt:
n.uesaka (at) sensorik.rwth-aachen.de

Tel.: 0241/8020805

 

 

ausgewählte Publikationen:

 

Uesaka N, Uchigashima M, Mikuni T, Hirai H, Watanabe M, Kano M. (2015): Retrograde Signaling for Climbing Fiber Synapse Elimination. Cerebellum. 2015 Feb;14(1):4-7

 

Uesaka N, Uchigashima M, Mikuni T, Nakazawa T, Nakao H, Hirai H, Aiba A, Watanabe M, Kano M. (2014): Retrograde semaphorin signaling regulates synapse elimination in the developing mouse brain. Science. 344. p.1020-p.1023.

 

Uesaka N, Kawata S, Kano M. (2014): Cellular and molecular mechanisms of synapse elimination in mammalian brain. Brain Nerve. 66(9):1069-77.

 

Mikuni T, Uesaka N, Okuno H, Hirai H, Deisseroth K, Bito H, Kano M. (2013): Arc/Arg3.1 Is a Postsynaptic Mediator of Activity-Dependent Synapse Elimination in the Developing Cerebellum. Neuron. p.1024–p.1035.

 

Uesaka N, Mikuni T, Hashimoto K, Hirai H, Sakimura K, Kano M. (2012): Organotypic coculture preparation for the study of developmental synapse elimination in mammalian brain. J. Neurosci. p.11657-p.11670.

 

Tanimuraima M, Yamazaki M, Uesaka N, Mikuni T, Manabu Abe, Kouichi Hashimoto, Masahiko Watanabe, Kenji Sakimura and Masanobu Kano. (2012): Synapse type-independent degradation of the endocannabinoid 2-arachidonoylglycerol after retrograde synaptic suppression. Proc Natl Acad Sci U S A. p. 12195-p.12200.

 

Yamada A, Uesaka N (Equally contributed), Hayano Y, Tabata T, Kano M, Yamamoto N. (2010): Role of pre- and postsynaptic activity in thalamocortical axon branching. Proc Natl Acad Sci U S A. p.7562-p.7567.

 

Sugo N, Uesaka N, Song WJ, Yamamoto N. (2010): Nucleocytoplasmic translocation of HDAC9 regulates gene expression and dendritic growth in developing cortical neurons. Eur J Neurosci. p.1521-p.1532.

 

Uesaka N, Hayano Y, Yamada A, and Yamamoto N. (2009): “Single Cell Electroporation Method for Mammalian CNS Neurons in Organotypic Slice Cultures” Electroporation and Sonoporation in Developmental Biology, Springer Japan. p.169-p.178.

 

Ohnami S, Endo M, Hirai S, Uesaka N, Hatanaka Y, Yamashita T, Yamamoto N. (2008): Role of RhoA in activity-dependent cortical axon branching. J Neurosci. p.9117-p.9121.

 

Uesaka N, Nishiwaki M, Yamamoto N. (2008): Single cell electroporation method for axon tracing in cultured slices. Dev Growth Differ. p.475-p.477.

 

Uesaka N, Hayano Y (Equally contributed), Yamada A, Yamamoto N (2007): Interplay between laminar specificity and activity-dependent mechanisms of thalamocortical axon branching. J Neurosci. p.5215-p.5223.

 

Yamamoto N, Maruyama T, Uesaka N, Hayano Y, Takemoto M, Yamada A. (2007): Molecular mechanisms of thalamocortical axon targeting. Novartis Found Symp. p.2199-p.2208.

 

Uesaka N, Ruthazer ES, Yamamoto N. The role of neural activity in cortical axon branching (2006): Neuroscientist. p.102-p.106.

 
Uesaka N, Hirai S, Maruyama T, Ruthazer ES, Yamamoto N. (2005): Activity dependence of cortical axon branch formation: a morphological and electrophysiological study using organotypic slice cultures. J Neurosci. p.1-p.9.  
 
 
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