A citation-based method for searching scientific literature

Li Zhang, Qiwen Wu, Yifeng Zhang. J Neurosci 2020
Times Cited: 1







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



Times Cited
  Times     Co-cited
Similarity


Single-Cell Profiles of Retinal Ganglion Cells Differing in Resilience to Injury Reveal Neuroprotective Genes.
Nicholas M Tran, Karthik Shekhar, Irene E Whitney, Anne Jacobi, Inbal Benhar, Guosong Hong, Wenjun Yan, Xian Adiconis, McKinzie E Arnold, Jung Min Lee,[...]. Neuron 2019
158
100

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
92
100

Visual Circuits for Direction Selectivity.
Alex S Mauss, Anna Vlasits, Alexander Borst, Marla Feller. Annu Rev Neurosci 2017
73
100


Unique topographic separation of two spectral classes of cones in the mouse retina.
A Szél, P Röhlich, A R Caffé, B Juliusson, G Aguirre, T Van Veen. J Comp Neurol 1992
212
100

The development of cortical circuits for motion discrimination.
Gordon B Smith, Audrey Sederberg, Yishai M Elyada, Stephen D Van Hooser, Matthias Kaschube, David Fitzpatrick. Nat Neurosci 2015
43
100

Activity-dependent development of visual receptive fields.
Andrew Thompson, Alexandra Gribizis, Chinfei Chen, Michael C Crair. Curr Opin Neurobiol 2017
31
100

Direction-specific disruption of subcortical visual behavior and receptive fields in mice lacking the beta2 subunit of nicotinic acetylcholine receptor.
Lupeng Wang, Krsna V Rangarajan, Courtney A Lawhn-Heath, Rashmi Sarnaik, Bor-Shuen Wang, Xiaorong Liu, Jianhua Cang. J Neurosci 2009
40
100

Phenotypical characteristics of idiopathic infantile nystagmus with and without mutations in FRMD7.
Shery Thomas, Frank A Proudlock, Nagini Sarvananthan, Eryl O Roberts, Musarat Awan, Rebecca McLean, Mylvaganam Surendran, A S Anil Kumar, Shegufta J Farooq, Chris Degg,[...]. Brain 2008
59
100

Visual circuit development requires patterned activity mediated by retinal acetylcholine receptors.
Timothy J Burbridge, Hong-Ping Xu, James B Ackman, Xinxin Ge, Yueyi Zhang, Mei-Jun Ye, Z Jimmy Zhou, Jian Xu, Anis Contractor, Michael C Crair. Neuron 2014
66
100

Role for Visual Experience in the Development of Direction-Selective Circuits.
Rémi Bos, Christian Gainer, Marla B Feller. Curr Biol 2016
20
100


Spatially asymmetric reorganization of inhibition establishes a motion-sensitive circuit.
Keisuke Yonehara, Kamill Balint, Masaharu Noda, Georg Nagel, Ernst Bamberg, Botond Roska. Nature 2011
111
100

An early phase of instructive plasticity before the typical onset of sensory experience.
Arani Roy, Shen Wang, Benyamin Meschede-Krasa, Jordan Breffle, Stephen D Van Hooser. Nat Commun 2020
19
100

Wiring specificity in the direction-selectivity circuit of the retina.
Kevin L Briggman, Moritz Helmstaedter, Winfried Denk. Nature 2011
501
100

Direction selectivity in retinal bipolar cell axon terminals.
Akihiro Matsumoto, Weaam Agbariah, Stella Solveig Nolte, Rawan Andrawos, Hadara Levi, Shai Sabbah, Keisuke Yonehara. Neuron 2021
5
100

Development of asymmetric inhibition underlying direction selectivity in the retina.
Wei Wei, Aaron M Hamby, Kaili Zhou, Marla B Feller. Nature 2011
121
100

A retinal code for motion along the gravitational and body axes.
Shai Sabbah, John A Gemmer, Ananya Bhatia-Lin, Gabrielle Manoff, Gabriel Castro, Jesse K Siegel, Nathan Jeffery, David M Berson. Nature 2017
57
100

Cholinergic feedback to bipolar cells contributes to motion detection in the mouse retina.
Chase B Hellmer, Leo M Hall, Jeremy M Bohl, Zachary J Sharpe, Robert G Smith, Tomomi Ichinose. Cell Rep 2021
4
100

Contributions of Rod and Cone Pathways to Retinal Direction Selectivity Through Development.
Juliana M Rosa, Ryan D Morrie, Hans C Baertsch, Marla B Feller. J Neurosci 2016
11
100

The influence of spontaneous and visual activity on the development of direction selectivity maps in mouse retina.
Alexandre Tiriac, Karina Bistrong, Miah N Pitcher, Joshua M Tworig, Marla B Feller. Cell Rep 2022
2
100

Retinal waves coordinate patterned activity throughout the developing visual system.
James B Ackman, Timothy J Burbridge, Michael C Crair. Nature 2012
258
100


Retinal waves and visual system development.
R O Wong. Annu Rev Neurosci 1999
357
100



Direction-selective dendritic action potentials in rabbit retina.
Nicholas Oesch, Thomas Euler, W Rowland Taylor. Neuron 2005
103
100

Development of the vertebrate retinal direction-selective circuit.
Natalie R Hamilton, Andrew J Scasny, Alex L Kolodkin. Dev Biol 2021
3
100

Directionally selective calcium signals in dendrites of starburst amacrine cells.
Thomas Euler, Peter B Detwiler, Winfried Denk. Nature 2002
370
100

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
439
100

A Role for Synaptic Input Distribution in a Dendritic Computation of Motion Direction in the Retina.
Anna L Vlasits, Ryan D Morrie, Alexandra Tran-Van-Minh, Adam Bleckert, Christian F Gainer, David A DiGregorio, Marla B Feller. Neuron 2016
51
100

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
122
100

Parallel mechanisms encode direction in the retina.
Stuart Trenholm, Kyle Johnson, Xiao Li, Robert G Smith, Gautam B Awatramani. Neuron 2011
88
100


Retinal origin of direction selectivity in the superior colliculus.
Xuefeng Shi, Jad Barchini, Hector Acaron Ledesma, David Koren, Yanjiao Jin, Xiaorong Liu, Wei Wei, Jianhua Cang. Nat Neurosci 2017
45
100

Cell-type-Specific Patterned Stimulus-Independent Neuronal Activity in the Drosophila Visual System during Synapse Formation.
Orkun Akin, Bryce T Bajar, Mehmet F Keles, Mark A Frye, S Lawrence Zipursky. Neuron 2019
24
100

Developmental mechanisms of topographic map formation and alignment.
Jianhua Cang, David A Feldheim. Annu Rev Neurosci 2013
142
100

Mechanisms underlying spontaneous patterned activity in developing neural circuits.
Aaron G Blankenship, Marla B Feller. Nat Rev Neurosci 2010
451
100

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
247
100

A Central Role for Mixed Acetylcholine/GABA Transmission in Direction Coding in the Retina.
Santhosh Sethuramanujam, Amanda J McLaughlin, Geoffery deRosenroll, Alex Hoggarth, David J Schwab, Gautam B Awatramani. Neuron 2016
40
100

Light Prior to Eye Opening Promotes Retinal Waves and Eye-Specific Segregation.
Alexandre Tiriac, Benjamin E Smith, Marla B Feller. Neuron 2018
21
100

Role of ACh-GABA cotransmission in detecting image motion and motion direction.
Seunghoon Lee, Kyongmin Kim, Z Jimmy Zhou. Neuron 2010
141
100

Development of synaptic connectivity in the retinal direction selective circuit.
Ryan D Morrie, Marla B Feller. Curr Opin Neurobiol 2016
14
100


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
95
100



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
113
100


Retinal waves prime visual motion detection by simulating future optic flow.
Xinxin Ge, Kathy Zhang, Alexandra Gribizis, Ali S Hamodi, Aude Martinez Sabino, Michael C Crair. Science 2021
6
100


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.