A citation-based method for searching scientific literature

Neal T Sweeney, Hannah Tierney, David A Feldheim. J Neurosci 2014
Times Cited: 38







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



Times Cited
  Times     Co-cited
Similarity


T-box transcription regulator Tbr2 is essential for the formation and maintenance of Opn4/melanopsin-expressing intrinsically photosensitive retinal ganglion cells.
Chai-An Mao, Hongyan Li, Zhijing Zhang, Takae Kiyama, Satchidananda Panda, Samer Hattar, Christophe P Ribelayga, Stephen L Mills, Steven W Wang. J Neurosci 2014
30
66

Eomesodermin, a target gene of Pou4f2, is required for retinal ganglion cell and optic nerve development in the mouse.
Chai-An Mao, Takae Kiyama, Ping Pan, Yasuhide Furuta, Anna-Katerina Hadjantonakis, William H Klein. Development 2008
58
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
270
31

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
31

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
31

Retinal ganglion cell maps in the brain: implications for visual processing.
Onkar S Dhande, Andrew D Huberman. Curr Opin Neurobiol 2014
104
28

Gene regulation logic in retinal ganglion cell development: Isl1 defines a critical branch distinct from but overlapping with Pou4f2.
Xiuqian Mu, Xueyao Fu, Phillip D Beremand, Terry L Thomas, William H Klein. Proc Natl Acad Sci U S A 2008
103
28



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
28

Requirement for math5 in the development of retinal ganglion cells.
S W Wang, B S Kim, K Ding, H Wang, D Sun, R L Johnson, W H Klein, L Gan. Genes Dev 2001
363
26

Cadherin-6 mediates axon-target matching in a non-image-forming visual circuit.
Jessica A Osterhout, Nicko Josten, Jena Yamada, Feng Pan, Shaw-wen Wu, Phong L Nguyen, Georgia Panagiotakos, Yukiko U Inoue, Saki F Egusa, Bela Volgyi,[...]. Neuron 2011
100
26

The neuronal organization of the retina.
Richard H Masland. Neuron 2012
416
26

Dendritic and axonal targeting patterns of a genetically-specified class of retinal ganglion cells that participate in image-forming circuits.
Jason W Triplett, Wei Wei, Cristina Gonzalez, Neal T Sweeney, Andrew D Huberman, Marla B Feller, David A Feldheim. Neural Dev 2014
34
26


Two Pairs of ON and OFF Retinal Ganglion Cells Are Defined by Intersectional Patterns of Transcription Factor Expression.
David L Rousso, Mu Qiao, Ruth D Kagan, Masahito Yamagata, Richard D Palmiter, Joshua R Sanes. Cell Rep 2016
72
23

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
21

Transcriptional code and disease map for adult retinal cell types.
Sandra Siegert, Erik Cabuy, Brigitte Gross Scherf, Hubertus Kohler, Satchidananda Panda, Yun-Zheng Le, Hans Jörg Fehling, Dimos Gaidatzis, Michael B Stadler, Botond Roska. Nat Neurosci 2012
174
21

Genetic dissection of retinal inputs to brainstem nuclei controlling image stabilization.
Onkar S Dhande, Maureen E Estevez, Lauren E Quattrochi, Rana N El-Danaf, Phong L Nguyen, David M Berson, Andrew D Huberman. J Neurosci 2013
97
21

Melanopsin cells are the principal conduits for rod-cone input to non-image-forming vision.
Ali D Güler, Jennifer L Ecker, Gurprit S Lall, Shafiqul Haq, Cara M Altimus, Hsi-Wen Liao, Alun R Barnard, Hugh Cahill, Tudor C Badea, Haiqing Zhao,[...]. Nature 2008
500
21

Subtype-specific regeneration of retinal ganglion cells following axotomy: effects of osteopontin and mTOR signaling.
Xin Duan, Mu Qiao, Fengfeng Bei, In-Jung Kim, Zhigang He, Joshua R Sanes. Neuron 2015
216
21

Melanopsin-expressing retinal ganglion-cell photoreceptors: cellular diversity and role in pattern vision.
Jennifer L Ecker, Olivia N Dumitrescu, Kwoon Y Wong, Nazia M Alam, Shih-Kuo Chen, Tara LeGates, Jordan M Renna, Glen T Prusky, David M Berson, Samer Hattar. Neuron 2010
383
18

Math5 determines the competence state of retinal ganglion cell progenitors.
Zhiyong Yang, Kan Ding, Ling Pan, Min Deng, Lin Gan. Dev Biol 2003
198
18


Design principles of insect and vertebrate visual systems.
Joshua R Sanes, S Lawrence Zipursky. Neuron 2010
314
18

ISL1 and BRN3B co-regulate the differentiation of murine retinal ganglion cells.
Ling Pan, Min Deng, Xiaoling Xie, Lin Gan. Development 2008
127
18

Math5 is required for retinal ganglion cell and optic nerve formation.
N L Brown, S Patel, J Brzezinski, T Glaser. Development 2001
363
18


Morphological properties of mouse retinal ganglion cells.
J Coombs, D van der List, G-Y Wang, L M Chalupa. Neuroscience 2006
204
18


Central projections of melanopsin-expressing retinal ganglion cells in the mouse.
Samer Hattar, Monica Kumar, Alexander Park, Patrick Tong, Jonathan Tung, King-Wai Yau, David M Berson. J Comp Neurol 2006
580
15

Transcription factors SOX4 and SOX11 function redundantly to regulate the development of mouse retinal ganglion cells.
Ying Jiang, Qian Ding, Xiaoling Xie, Richard T Libby, Veronique Lefebvre, Lin Gan. J Biol Chem 2013
70
15

Direction-selective retinal ganglion cells arise from molecularly specified multipotential progenitors.
Irina De la Huerta, In-Jung Kim, P Emanuela Voinescu, Joshua R Sanes. Proc Natl Acad Sci U S A 2012
41
15

Tracer coupling patterns of the ganglion cell subtypes in the mouse retina.
Béla Völgyi, Samir Chheda, Stewart A Bloomfield. J Comp Neurol 2009
203
15

Form and function of the M4 cell, an intrinsically photosensitive retinal ganglion cell type contributing to geniculocortical vision.
Maureen E Estevez, P Michelle Fogerson, Marissa C Ilardi, Bart G Borghuis, Eric Chan, Shijun Weng, Olivia N Auferkorte, Jonathan B Demb, David M Berson. J Neurosci 2012
146
15

Intrinsically photosensitive retinal ganglion cells: many subtypes, diverse functions.
Tiffany M Schmidt, Shih-Kuo Chen, Samer Hattar. Trends Neurosci 2011
267
15

Melanopsin (Opn4) requirement for normal light-induced circadian phase shifting.
Satchidananda Panda, Trey K Sato, Ana Maria Castrucci, Mark D Rollag, Willem J DeGrip, John B Hogenesch, Ignacio Provencio, Steve A Kay. Science 2002
534
15

Morphology and mosaics of melanopsin-expressing retinal ganglion cell types in mice.
David M Berson, Ana Maria Castrucci, Ignacio Provencio. J Comp Neurol 2010
138
15


Retinal ganglion cell genesis requires lakritz, a Zebrafish atonal Homolog.
J N Kay, K C Finger-Baier, T Roeser, W Staub, H Baier. Neuron 2001
294
15

POU domain factor Brn-3b is required for the development of a large set of retinal ganglion cells.
L Gan, M Xiang, L Zhou, D S Wagner, W H Klein, J Nathans. Proc Natl Acad Sci U S A 1996
265
15

Cell fate determination in the vertebrate retina.
C L Cepko, C P Austin, X Yang, M Alexiades, D Ezzeddine. Proc Natl Acad Sci U S A 1996
747
15

Contributions of Retinal Ganglion Cells to Subcortical Visual Processing and Behaviors.
Onkar S Dhande, Benjamin K Stafford, Jung-Hwan A Lim, Andrew D Huberman. Annu Rev Vis Sci 2015
64
15

Two transcription factors, Pou4f2 and Isl1, are sufficient to specify the retinal ganglion cell fate.
Fuguo Wu, Tadeusz J Kaczynski, Santhosh Sethuramanujam, Renzhong Li, Varsha Jain, Malcolm Slaughter, Xiuqian Mu. Proc Natl Acad Sci U S A 2015
53
15


Single cell transcriptome profiling of retinal ganglion cells identifies cellular subtypes.
Bruce A Rheaume, Amyeo Jereen, Mohan Bolisetty, Muhammad S Sajid, Yue Yang, Kathleen Renna, Lili Sun, Paul Robson, Ephraim F Trakhtenberg. Nat Commun 2018
139
15

Vertebrate neural cell-fate determination: lessons from the retina.
F J Livesey, C L Cepko. Nat Rev Neurosci 2001
684
13



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.