A citation-based method for searching scientific literature

Soon Keen Cheong, Chris Tailby, Samuel G Solomon, Paul R Martin. J Neurosci 2013
Times Cited: 70







List of co-cited articles
1161 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Diverse visual features encoded in mouse lateral geniculate nucleus.
Denise M Piscopo, Rana N El-Danaf, Andrew D Huberman, Cristopher M Niell. J Neurosci 2013
189
52

Anterior-posterior direction opponency in the superficial mouse lateral geniculate nucleus.
James H Marshel, Alfred P Kaye, Ian Nauhaus, Edward M Callaway. Neuron 2012
108
38


Orientation-selective responses in the mouse lateral geniculate nucleus.
Xinyu Zhao, Hui Chen, Xiaorong Liu, Jianhua Cang. J Neurosci 2013
81
35

Emergence of orientation selectivity in the Mammalian visual pathway.
Benjamin Scholl, Andrew Y Y Tan, Joseph Corey, Nicholas J Priebe. J Neurosci 2013
89
34


A dedicated circuit links direction-selective retinal ganglion cells to the primary visual cortex.
Alberto Cruz-Martín, Rana N El-Danaf, Fumitaka Osakada, Balaji Sriram, Onkar S Dhande, Phong L Nguyen, Edward M Callaway, Anirvan Ghosh, Andrew D Huberman. Nature 2014
181
27

Are primate lateral geniculate nucleus (LGN) cells really sensitive to orientation or direction?
Xiangmin Xu, Jennifer Ichida, Yuri Shostak, A B Bonds, Vivien A Casagrande. Vis Neurosci 2002
67
26


Highly selective receptive fields in mouse visual cortex.
Cristopher M Niell, Michael P Stryker. J Neurosci 2008
584
22

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
248
22

Binocular Visual Responses in the Primate Lateral Geniculate Nucleus.
Natalie Zeater, Soon K Cheong, Samuel G Solomon, Bogdan Dreher, Paul R Martin. Curr Biol 2015
32
43







The Psychophysics Toolbox.
D H Brainard. Spat Vis 1997
17

Visual receptive field properties of neurons in the superficial superior colliculus of the mouse.
Lupeng Wang, Rashmi Sarnaik, Krsna Rangarajan, Xiaorong Liu, Jianhua Cang. J Neurosci 2010
117
17

Tuned thalamic excitation is amplified by visual cortical circuits.
Anthony D Lien, Massimo Scanziani. Nat Neurosci 2013
175
17

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
202
17

Architecture and activity-mediated refinement of axonal projections from a mosaic of genetically identified retinal ganglion cells.
Andrew D Huberman, Mihai Manu, Selina M Koch, Michael W Susman, Amanda Brosius Lutz, Erik M Ullian, Stephen A Baccus, Ben A Barres. Neuron 2008
194
17

Morphologically distinct classes of relay cells exhibit regional preferences in the dorsal lateral geniculate nucleus of the mouse.
Thomas E Krahe, Rana N El-Danaf, Emily K Dilger, Scott C Henderson, William Guido. J Neurosci 2011
71
17


Orientation bias of neurons in the lateral geniculate nucleus of macaque monkeys.
E L Smith, Y M Chino, W H Ridder, K Kitagawa, A Langston. Vis Neurosci 1990
77
15


Orientation sensitivity of ganglion cells in primate retina.
Christopher L Passaglia, John B Troy, Lukas Rüttiger, Barry B Lee. Vision Res 2002
49
22

Linear and nonlinear contributions to the visual sensitivity of neurons in primate lateral geniculate nucleus.
Samuel G Solomon, Chris Tailby, Soon K Cheong, Aaron J Camp. J Neurophysiol 2010
26
42

Retinal ganglion cell inputs to the koniocellular pathway.
Brett A Szmajda, Ulrike Grünert, Paul R Martin. J Comp Neurol 2008
60
18

Transmission of blue (S) cone signals through the primate lateral geniculate nucleus.
C Tailby, B A Szmajda, P Buzás, B B Lee, P R Martin. J Physiol 2008
54
20


The koniocellular pathway in primate vision.
S H Hendry, R C Reid. Annu Rev Neurosci 2000
321
15

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
270
15


The functional diversity of retinal ganglion cells in the mouse.
Tom Baden, Philipp Berens, Katrin Franke, Miroslav Román Rosón, Matthias Bethge, Thomas Euler. Nature 2016
372
15



Evidence that blue-on cells are part of the third geniculocortical pathway in primates.
P R Martin, A J White, A K Goodchild, H D Wilder, A E Sefton. Eur J Neurosci 1997
205
14

Bypassing V1: a direct geniculate input to area MT.
Lawrence C Sincich, Ken F Park, Melville J Wohlgemuth, Jonathan C Horton. Nat Neurosci 2004
321
14

Specificity and strength of retinogeniculate connections.
W M Usrey, J B Reppas, R C Reid. J Neurophysiol 1999
160
12

Simultaneous recording of input and output of lateral geniculate neurones.
B G Cleland, M W Dubin, W R Levick. Nat New Biol 1971
178
12

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
130
12

The contrast sensitivity of retinal ganglion cells of the cat.
C Enroth-Cugell, J G Robson. J Physiol 1966
12

The most numerous ganglion cell type of the mouse retina is a selective feature detector.
Yifeng Zhang, In-Jung Kim, Joshua R Sanes, Markus Meister. Proc Natl Acad Sci U S A 2012
154
12




Transmission of spike trains at the retinogeniculate synapse.
Lawrence C Sincich, Daniel L Adams, John R Economides, Jonathan C Horton. J Neurosci 2007
79
12

Binocular integration in the mouse lateral geniculate nuclei.
Michael Howarth, Lauren Walmsley, Timothy M Brown. Curr Biol 2014
48
18


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.