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List of co-cited articles
197 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Direction selectivity in the retina is established independent of visual experience and cholinergic retinal waves.
Justin Elstrott, Anastasia Anishchenko, Martin Greschner, Alexander Sher, Alan M Litke, E J Chichilnisky, Marla B Feller. Neuron 2008
92
64

Spatial-temporal patterns of retinal waves underlying activity-dependent refinement of retinofugal projections.
Ben K Stafford, Alexander Sher, Alan M Litke, David A Feldheim. Neuron 2009
88
64

A key role of starburst amacrine cells in originating retinal directional selectivity and optokinetic eye movement.
K Yoshida, D Watanabe, H Ishikane, M Tachibana, I Pastan, S Nakanishi. Neuron 2001
240
57

Mechanisms and circuitry underlying directional selectivity in the retina.
Shelley I Fried, Thomas A Münch, Frank S Werblin. Nature 2002
232
57

Genetic identification of an On-Off direction-selective retinal ganglion cell subtype reveals a layer-specific subcortical map of posterior motion.
Andrew D Huberman, Wei Wei, Justin Elstrott, Ben K Stafford, Marla B Feller, Ben A Barres. Neuron 2009
247
57

Physiological properties of direction-selective ganglion cells in early postnatal and adult mouse retina.
Minggang Chen, Shijun Weng, Qiudong Deng, Zhen Xu, Shigang He. J Physiol 2009
40
57

Development of asymmetric inhibition underlying direction selectivity in the retina.
Wei Wei, Aaron M Hamby, Kaili Zhou, Marla B Feller. Nature 2011
110
57


Wiring specificity in the direction-selectivity circuit of the retina.
Kevin L Briggman, Moritz Helmstaedter, Winfried Denk. Nature 2011
467
50



Directionally selective calcium signals in dendrites of starburst amacrine cells.
Thomas Euler, Peter B Detwiler, Winfried Denk. Nature 2002
352
42


Mechanisms underlying development of visual maps and receptive fields.
Andrew D Huberman, Marla B Feller, Barbara Chapman. Annu Rev Neurosci 2008
388
42

Role of ACh-GABA cotransmission in detecting image motion and motion direction.
Seunghoon Lee, Kyongmin Kim, Z Jimmy Zhou. Neuron 2010
129
42

Molecular identification of a retinal cell type that responds to upward motion.
In-Jung Kim, Yifeng Zhang, Masahito Yamagata, Markus Meister, Joshua R Sanes. Nature 2008
269
42


Retinal ganglion cells with distinct directional preferences differ in molecular identity, structure, and central projections.
Jeremy N Kay, Irina De la Huerta, In-Jung Kim, Yifeng Zhang, Masahito Yamagata, Monica W Chu, Markus Meister, Joshua R Sanes. J Neurosci 2011
200
42



Mechanisms underlying spontaneous patterned activity in developing neural circuits.
Aaron G Blankenship, Marla B Feller. Nat Rev Neurosci 2010
421
35


Spatially asymmetric reorganization of inhibition establishes a motion-sensitive circuit.
Keisuke Yonehara, Kamill Balint, Masaharu Noda, Georg Nagel, Ernst Bamberg, Botond Roska. Nature 2011
104
35



Transgenic mice reveal unexpected diversity of on-off direction-selective retinal ganglion cell subtypes and brain structures involved in motion processing.
Michal Rivlin-Etzion, Kaili Zhou, Wei Wei, Justin Elstrott, Phong L Nguyen, Ben A Barres, Andrew D Huberman, Marla B Feller. J Neurosci 2011
128
35



GABA(A) receptor-mediated signaling alters the structure of spontaneous activity in the developing retina.
Chih-Tien Wang, Aaron G Blankenship, Anastasia Anishchenko, Justin Elstrott, Michael Fikhman, Shigetada Nakanishi, Marla B Feller. J Neurosci 2007
41
28

Stage-dependent dynamics and modulation of spontaneous waves in the developing rabbit retina.
Mohsin Md Syed, Seunghoon Lee, Jijian Zheng, Z Jimmy Zhou. J Physiol 2004
85
28


Synaptic and extrasynaptic factors governing glutamatergic retinal waves.
Aaron G Blankenship, Kevin J Ford, Juliette Johnson, Rebecca P Seal, Robert H Edwards, David R Copenhagen, Marla B Feller. Neuron 2009
66
28


Spontaneous patterned retinal activity and the refinement of retinal projections.
Christine L Torborg, Marla B Feller. Prog Neurobiol 2005
170
28



The shape and arrangement of the cholinergic neurons in the rabbit retina.
M Tauchi, R H Masland. Proc R Soc Lond B Biol Sci 1984
337
28

The functions of acetylcholine in the rabbit retina.
R H Masland, J W Mills, C Cassidy. Proc R Soc Lond B Biol Sci 1984
179
28


Dendritic compartmentalization of chloride cotransporters underlies directional responses of starburst amacrine cells in retina.
Konstantin E Gavrikov, James E Nilson, Andrey V Dmitriev, Charles L Zucker, Stuart C Mangel. Proc Natl Acad Sci U S A 2006
63
28

The immune protein CD3zeta is required for normal development of neural circuits in the retina.
Hong-ping Xu, Hui Chen, Qian Ding, Zheng-Hua Xie, Ling Chen, Ling Diao, Ping Wang, Lin Gan, Michael C Crair, Ning Tian. Neuron 2010
53
28



ON direction-selective ganglion cells in the mouse retina.
Wenzhi Sun, Qiudong Deng, William R Levick, Shigang He. J Physiol 2006
58
28

Synaptic inputs and timing underlying the velocity tuning of direction-selective ganglion cells in rabbit retina.
Benjamin Sivyer, Michiel van Wyk, David I Vaney, W Rowland Taylor. J Physiol 2010
30
28

Identification of retinal ganglion cells and their projections involved in central transmission of information about upward and downward image motion.
Keisuke Yonehara, Hiroshi Ishikane, Hiraki Sakuta, Takafumi Shintani, Kayo Nakamura-Yonehara, Nilton L Kamiji, Shiro Usui, Masaharu Noda. PLoS One 2009
104
28


A dendrite-autonomous mechanism for direction selectivity in retinal starburst amacrine cells.
Susanne E Hausselt, Thomas Euler, Peter B Detwiler, Winfried Denk. PLoS Biol 2007
93
28

Vision and the establishment of direction-selectivity: a tale of two circuits.
Justin Elstrott, Marla B Feller. Curr Opin Neurobiol 2009
17
28

Dendritic relationship between starburst amacrine cells and direction-selective ganglion cells in the rabbit retina.
Wei Dong, Wenzhi Sun, Yingye Zhang, Xiaorong Chen, Shigang He. J Physiol 2004
39
21


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.