A citation-based method for searching scientific literature

Gordon B Smith, Audrey Sederberg, Yishai M Elyada, Stephen D Van Hooser, Matthias Kaschube, David Fitzpatrick. Nat Neurosci 2015
Times Cited: 42







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



Times Cited
  Times     Co-cited
Similarity


Experience with moving visual stimuli drives the early development of cortical direction selectivity.
Ye Li, Stephen D Van Hooser, Mark Mazurek, Leonard E White, David Fitzpatrick. Nature 2008
121
38


Development of direction selectivity in mouse cortical neurons.
Nathalie L Rochefort, Madoka Narushima, Christine Grienberger, Nima Marandi, Daniel N Hill, Arthur Konnerth. Neuron 2011
115
30

Retinal waves coordinate patterned activity throughout the developing visual system.
James B Ackman, Timothy J Burbridge, Michael C Crair. Nature 2012
255
30


Mechanisms underlying development of visual maps and receptive fields.
Andrew D Huberman, Marla B Feller, Barbara Chapman. Annu Rev Neurosci 2008
404
26

Functional imaging with cellular resolution reveals precise micro-architecture in visual cortex.
Kenichi Ohki, Sooyoung Chung, Yeang H Ch'ng, Prakash Kara, R Clay Reid. Nature 2005
733
23


Sparsification of neuronal activity in the visual cortex at eye-opening.
Nathalie L Rochefort, Olga Garaschuk, Ruxandra-Iulia Milos, Madoka Narushima, Nima Marandi, Bruno Pichler, Yury Kovalchuk, Arthur Konnerth. Proc Natl Acad Sci U S A 2009
157
21

Spontaneous cortical activity reveals hallmarks of an optimal internal model of the environment.
Pietro Berkes, Gergo Orbán, Máté Lengyel, József Fiser. Science 2011
345
21

Mechanisms underlying spontaneous patterned activity in developing neural circuits.
Aaron G Blankenship, Marla B Feller. Nat Rev Neurosci 2010
447
21


Initial neighborhood biases and the quality of motion stimulation jointly influence the rapid emergence of direction preference in visual cortex.
Stephen D Van Hooser, Ye Li, Maria Christensson, Gordon B Smith, Leonard E White, David Fitzpatrick. J Neurosci 2012
28
28

Ultrasensitive fluorescent proteins for imaging neuronal activity.
Tsai-Wen Chen, Trevor J Wardill, Yi Sun, Stefan R Pulver, Sabine L Renninger, Amy Baohan, Eric R Schreiter, Rex A Kerr, Michael B Orger, Vivek Jayaraman,[...]. Nature 2013
19

Role of emergent neural activity in visual map development.
James B Ackman, Michael C Crair. Curr Opin Neurobiol 2014
111
19


The emergence of functional microcircuits in visual cortex.
Ho Ko, Lee Cossell, Chiara Baragli, Jan Antolik, Claudia Clopath, Sonja B Hofer, Thomas D Mrsic-Flogel. Nature 2013
240
19


Retinal waves trigger spindle bursts in the neonatal rat visual cortex.
Ileana L Hanganu, Yehezkel Ben-Ari, Rustem Khazipov. J Neurosci 2006
198
16

A conserved switch in sensory processing prepares developing neocortex for vision.
Matthew T Colonnese, Anna Kaminska, Marat Minlebaev, Mathieu Milh, Bernard Bloem, Sandra Lescure, Guy Moriette, Catherine Chiron, Yehezkel Ben-Ari, Rustem Khazipov. Neuron 2010
164
16


Development of orientation preference maps in ferret primary visual cortex.
B Chapman, M P Stryker, T Bonhoeffer. J Neurosci 1996
200
16


Emerging feed-forward inhibition allows the robust formation of direction selectivity in the developing ferret visual cortex.
Stephen D Van Hooser, Gina M Escobar, Arianna Maffei, Paul Miller. J Neurophysiol 2014
12
50

Internally mediated developmental desynchronization of neocortical network activity.
Peyman Golshani, J Tiago Gonçalves, Sattar Khoshkhoo, Ricardo Mostany, Stelios Smirnakis, Carlos Portera-Cailliau. J Neurosci 2009
175
14

Optogenetic spatial and temporal control of cortical circuits on a columnar scale.
Arani Roy, Jason J Osik, Neil J Ritter, Shen Wang, James T Shaw, József Fiser, Stephen D Van Hooser. J Neurophysiol 2016
16
37




Development of Activity in the Mouse Visual Cortex.
Jing Shen, Matthew T Colonnese. J Neurosci 2016
39
15

Vision and cortical map development.
Leonard E White, David Fitzpatrick. Neuron 2007
105
14



Orthogonal micro-organization of orientation and spatial frequency in primate primary visual cortex.
Ian Nauhaus, Kristina J Nielsen, Anita A Disney, Edward M Callaway. Nat Neurosci 2012
95
11


A systematic map of direction preference in primary visual cortex.
M Weliky, W H Bosking, D Fitzpatrick. Nature 1996
169
11

Robust quantification of orientation selectivity and direction selectivity.
Mark Mazurek, Marisa Kager, Stephen D Van Hooser. Front Neural Circuits 2014
78
11

The laminar development of direction selectivity in ferret visual cortex.
Jared M Clemens, Neil J Ritter, Arani Roy, Julie M Miller, Stephen D Van Hooser. J Neurosci 2012
15
33


The Psychophysics Toolbox.
D H Brainard. Spat Vis 1997
11


The subplate and early cortical circuits.
Patrick O Kanold, Heiko J Luhmann. Annu Rev Neurosci 2010
258
11

Peripheral and central inputs shape network dynamics in the developing visual cortex in vivo.
Friederike Siegel, J Alexander Heimel, Judith Peters, Christian Lohmann. Curr Biol 2012
69
11

Early γ oscillations synchronize developing thalamus and cortex.
Marat Minlebaev, Matthew Colonnese, Timur Tsintsadze, Anton Sirota, Roustem Khazipov. Science 2011
165
11

Thalamic network oscillations synchronize ontogenetic columns in the newborn rat barrel cortex.
Jenq-Wei Yang, Shuming An, Jyh-Jang Sun, Vicente Reyes-Puerta, Jennifer Kindler, Thomas Berger, Werner Kilb, Heiko J Luhmann. Cereb Cortex 2013
109
11



A role for correlated spontaneous activity in the assembly of neural circuits.
Lowry A Kirkby, Georgeann S Sack, Alana Firl, Marla B Feller. Neuron 2013
173
11

Developmental mechanisms of topographic map formation and alignment.
Jianhua Cang, David A Feldheim. Annu Rev Neurosci 2013
141
11

Highly ordered arrangement of single neurons in orientation pinwheels.
Kenichi Ohki, Sooyoung Chung, Prakash Kara, Mark Hübener, Tobias Bonhoeffer, R Clay Reid. Nature 2006
210
11


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.