A citation-based method for searching scientific literature

Daniel J Denman, Jennifer A Luviano, Douglas R Ollerenshaw, Sissy Cross, Derric Williams, Michael A Buice, Shawn R Olsen, R Clay Reid. Elife 2018
Times Cited: 28







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



Times Cited
  Times     Co-cited
Similarity


A tale of two retinal domains: near-optimal sampling of achromatic contrasts in natural scenes through asymmetric photoreceptor distribution.
Tom Baden, Timm Schubert, Le Chang, Tao Wei, Mariana Zaichuk, Bernd Wissinger, Thomas Euler. Neuron 2013
77
42

A neuronal circuit for colour vision based on rod-cone opponency.
Maximilian Joesch, Markus Meister. Nature 2016
63
39

The murine cone photoreceptor: a single cone type expresses both S and M opsins with retinal spatial patterning.
M L Applebury, M P Antoch, L C Baxter, L L Chun, J D Falk, F Farhangfar, K Kage, M G Krzystolik, L A Lyass, J T Robbins. Neuron 2000
392
35

Chromatic coding from cone-type unselective circuits in the mouse retina.
Le Chang, Tobias Breuninger, Thomas Euler. Neuron 2013
52
35

Influence of cone pigment coexpression on spectral sensitivity and color vision in the mouse.
Gerald H Jacobs, Gary A Williams, John A Fenwick. Vision Res 2004
103
28

Chromatic bipolar cell pathways in the mouse retina.
Tobias Breuninger, Christian Puller, Silke Haverkamp, Thomas Euler. J Neurosci 2011
76
28

Two different visual pigments in one retinal cone cell.
P Röhlich, T van Veen, A Szél. Neuron 1994
186
25


Zebrafish Differentially Process Color across Visual Space to Match Natural Scenes.
Maxime J Y Zimmermann, Noora E Nevala, Takeshi Yoshimatsu, Daniel Osorio, Dan-Eric Nilsson, Philipp Berens, Tom Baden. Curr Biol 2018
56
25

The M5 Cell: A Color-Opponent Intrinsically Photosensitive Retinal Ganglion Cell.
Maureen E Stabio, Shai Sabbah, Lauren E Quattrochi, Marissa C Ilardi, P Michelle Fogerson, Megan L Leyrer, Min Tae Kim, Inkyu Kim, Matthew Schiel, Jordan M Renna,[...]. Neuron 2018
31
25

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
25

Short-wavelength cone-opponent retinal ganglion cells in mammals.
David W Marshak, Stephen L Mills. Vis Neurosci 2014
23
30

The primordial, blue-cone color system of the mouse retina.
Silke Haverkamp, Heinz Wässle, Jens Duebel, Thomas Kuner, George J Augustine, Guoping Feng, Thomas Euler. J Neurosci 2005
195
25

True S-cones are concentrated in the ventral mouse retina and wired for color detection in the upper visual field.
Francisco M Nadal-Nicolás, Vincent P Kunze, John M Ball, Brian T Peng, Akshay Krishnan, Gaohui Zhou, Lijin Dong, Wei Li. Elife 2020
16
43

Neuronal Representation of Ultraviolet Visual Stimuli in Mouse Primary Visual Cortex.
Zhongchao Tan, Wenzhi Sun, Tsai-Wen Chen, Douglas Kim, Na Ji. Sci Rep 2015
22
27

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
200
21

The Retinal Basis of Vertebrate Color Vision.
T Baden, D Osorio. Annu Rev Vis Sci 2019
19
31



An arbitrary-spectrum spatial visual stimulator for vision research.
Katrin Franke, André Maia Chagas, Zhijian Zhao, Maxime Jy Zimmermann, Philipp Bartel, Yongrong Qiu, Klaudia P Szatko, Tom Baden, Thomas Euler. Elife 2019
18
33

Neural circuits in the mouse retina support color vision in the upper visual field.
Klaudia P Szatko, Maria M Korympidou, Yanli Ran, Philipp Berens, Deniz Dalkara, Timm Schubert, Thomas Euler, Katrin Franke. Nat Commun 2020
16
37


In search of the visual pigment template.
V I Govardovskii, N Fyhrquist, T Reuter, D G Kuzmin, K Donner. Vis Neurosci 2000
621
17


Connectivity map of bipolar cells and photoreceptors in the mouse retina.
Christian Behrens, Timm Schubert, Silke Haverkamp, Thomas Euler, Philipp Berens. Elife 2016
66
17

Spatial Organization of Chromatic Pathways in the Mouse Dorsal Lateral Geniculate Nucleus.
Daniel J Denman, Joshua H Siegle, Christof Koch, R Clay Reid, Timothy J Blanche. J Neurosci 2017
22
22

Vision Drives Accurate Approach Behavior during Prey Capture in Laboratory Mice.
Jennifer L Hoy, Iryna Yavorska, Michael Wehr, Cristopher M Niell. Curr Biol 2016
67
17

Rats maintain an overhead binocular field at the expense of constant fusion.
Damian J Wallace, David S Greenberg, Juergen Sawinski, Stefanie Rulla, Giuseppe Notaro, Jason N D Kerr. Nature 2013
147
17

Visual space is represented by nonmatching topographies of distinct mouse retinal ganglion cell types.
Adam Bleckert, Gregory W Schwartz, Maxwell H Turner, Fred Rieke, Rachel O L Wong. Curr Biol 2014
120
17

Emergence of novel color vision in mice engineered to express a human cone photopigment.
Gerald H Jacobs, Gary A Williams, Hugh Cahill, Jeremy Nathans. Science 2007
114
14

Physiological features of the S- and M-cone photoreceptors of wild-type mice from single-cell recordings.
Sergei S Nikonov, Roman Kholodenko, Janis Lem, Edward N Pugh. J Gen Physiol 2006
207
14

Coherent encoding of subjective spatial position in visual cortex and hippocampus.
Aman B Saleem, E Mika Diamanti, Julien Fournier, Kenneth D Harris, Matteo Carandini. Nature 2018
58
14


Maps of cone opsin input to mouse V1 and higher visual areas.
Issac Rhim, Gabriela Coello-Reyes, Hee-Kyoung Ko, Ian Nauhaus. J Neurophysiol 2017
12
33

Inhomogeneous Encoding of the Visual Field in the Mouse Retina.
Rebekah A Warwick, Nathali Kaushansky, Nimrod Sarid, Amir Golan, Michal Rivlin-Etzion. Curr Biol 2018
22
18


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
14

What can mice tell us about how vision works?
Andrew D Huberman, Cristopher M Niell. Trends Neurosci 2011
166
14

Understanding the retinal basis of vision across species.
Tom Baden, Thomas Euler, Philipp Berens. Nat Rev Neurosci 2020
37
14

Comprehensive Classification of Retinal Bipolar Neurons by Single-Cell Transcriptomics.
Karthik Shekhar, Sylvain W Lapan, Irene E Whitney, Nicholas M Tran, Evan Z Macosko, Monika Kowalczyk, Xian Adiconis, Joshua Z Levin, James Nemesh, Melissa Goldman,[...]. Cell 2016
457
14

Psychophysical measurement of contrast sensitivity in the behaving mouse.
Mark H Histed, Lauren A Carvalho, John H R Maunsell. J Neurophysiol 2012
69
14

Rods progressively escape saturation to drive visual responses in daylight conditions.
Alexandra Tikidji-Hamburyan, Katja Reinhard, Riccardo Storchi, Johannes Dietter, Hartwig Seitter, Katherine E Davis, Saad Idrees, Marion Mutter, Lauren Walmsley, Robert A Bedford,[...]. Nat Commun 2017
36
14

Light and the laboratory mouse.
Stuart N Peirson, Laurence A Brown, Carina A Pothecary, Lindsay A Benson, Angus S Fisk. J Neurosci Methods 2018
67
14

Cone inputs to murine striate cortex.
Björn Ekesten, Peter Gouras. BMC Neurosci 2008
12
33


Colour as a signal for entraining the mammalian circadian clock.
Lauren Walmsley, Lydia Hanna, Josh Mouland, Franck Martial, Alexander West, Andrew R Smedley, David A Bechtold, Ann R Webb, Robert J Lucas, Timothy M Brown. PLoS Biol 2015
95
14

Behavioral assessment of visual acuity in mice and rats.
G T Prusky, P W West, R M Douglas. Vision Res 2000
335
10

Cone contacts, mosaics, and territories of bipolar cells in the mouse retina.
Heinz Wässle, Christian Puller, Frank Müller, Silke Haverkamp. J Neurosci 2009
275
10

Melanopsin Contributions to the Representation of Images in the Early Visual System.
Annette E Allen, Riccardo Storchi, Franck P Martial, Robert A Bedford, Robert J Lucas. Curr Biol 2017
50
10

Three distinct blue-green color pathways in a mammalian retina.
Stephen L Mills, Lian-Ming Tian, Hideo Hoshi, Christopher M Whitaker, Stephen C Massey. J Neurosci 2014
24
12


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.