Hokto Kazama

J-GLOBAL         Last updated: Aug 25, 2019 at 18:09
 
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Name
Hokto Kazama
Nickname
風間北斗
E-mail
hokto_kazamabrain.riken.jp
Affiliation
RIKEN(The Institute of Physical and Chemical Research)

Research Areas

 
 

Published Papers

 
Mercier D, Tsuchimoto Y, Ohta K, Kazama H
Current biology : CB   28(16) 2624-2631.e5   Aug 2018   [Refereed]
Takagi S, Cocanougher BT, Niki S, Miyamoto D, Kohsaka H, Kazama H, Fetter RD, Truman JW, Zlatic M, Cardona A, Nose A
Neuron   96(6) 1373-1387.e6   Dec 2017   [Refereed]
Shiozaki HM, Kazama H
Nature neuroscience   20(10) 1395-1403   Oct 2017   [Refereed]
Inada K, Tsuchimoto Y, Kazama H
Neuron   95(2) 357-367.e4   Jul 2017   [Refereed]
Badel L, Ohta K, Tsuchimoto Y, Kazama H
Neuron   91(1) 155-167   Jul 2016   [Refereed]
Oizumi M, Satoh R, Kazama H, Okada M
Frontiers in computational neuroscience   6 14   Mar 2012   [Refereed]
Kazama H
Neuroscience   296 3-14   Jun 2015   [Refereed][Invited]
Kazama H, Yaksi E, Wilson RI
The Journal of neuroscience : the official journal of the Society for Neuroscience   31(21) 7619-7630   May 2011   [Refereed]
Satoh R, Oizumi M, Kazama H, Okada M
PloS one   5(5) e10644   May 2010   [Refereed]
Kazama H, Wilson RI
Nature neuroscience   12(9) 1136-1144   Sep 2009   [Refereed]
Kazama H, Wilson RI
Neuron   58(3) 401-413   May 2008   [Refereed]
Kazama H, Ichikawa A, Kohsaka H, Morimoto-Tanifuji T, Nose A.
Neuroscience   152(1) 40-49   2008   [Refereed]
Kazama H, Nose A, Morimoto-Tanifuji T.
Neuroscience   145(3) 1007-1015   2007   [Refereed]
Nakayama H, Kazama H, Nose A, Morimoto-Tanifuji T
Journal of neurobiology   66(9) 929-939   Aug 2006   [Refereed]
Morimoto-Tanifuji T, Kazama H, Nose A.
Neuroscience   128(4) 797-806   2004   [Refereed]

Misc

 
SATOH Ryota, OIZUMI Masahumi, KAZAMA Hokto, OKADA Masato
IEICE technical report. Neurocomputing   109(461) 13-18   Mar 2010
A recent investigation has indicated that lateral presynaptic inhibitory input mediates gain control in the Drosophila antennal lobe. They have shown that the lateral presynaptic inhibitory input to projection neurons (PNs) roughly scales with tot...
SATOH Ryota, OIZUMI Masahumi, KAZAMA Hokto, OKADA Masato
IEICE technical report. Neurocomputing   108(383) 73-78   Jan 2009
Recent investigations have shown that, in the Drosophila olfactory system, olfactory receptor neurons(ORNs) are comparatively narrowly tuned to odors while second-order projection neurons(PNs) are broadly tuned. This results from a nonlinear trans...