A citation-based method for searching scientific literature

Timm Schubert, Stephan Maxeiner, Olaf Krüger, Klaus Willecke, Reto Weiler. J Comp Neurol 2005
Times Cited: 67







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



Times Cited
  Times     Co-cited
Similarity


Connexin36 is essential for transmission of rod-mediated visual signals in the mammalian retina.
Michael R Deans, Bela Volgyi, Daniel A Goodenough, Stewart A Bloomfield, David L Paul. Neuron 2002
299
52

Connexin36 mediates gap junctional coupling of alpha-ganglion cells in mouse retina.
Timm Schubert, Joachim Degen, Klaus Willecke, Sheriar G Hormuzdi, Hannah Monyer, Reto Weiler. J Comp Neurol 2005
75
44

Tracer coupling patterns of the ganglion cell subtypes in the mouse retina.
Béla Völgyi, Samir Chheda, Stewart A Bloomfield. J Comp Neurol 2009
202
44

Deletion of connexin45 in mouse retinal neurons disrupts the rod/cone signaling pathway between AII amacrine and ON cone bipolar cells and leads to impaired visual transmission.
Stephan Maxeiner, Karin Dedek, Ulrike Janssen-Bienhold, Josef Ammermüller, Hendrik Brune, Taryn Kirsch, Mario Pieper, Joachim Degen, Olaf Krüger, Klaus Willecke,[...]. J Neurosci 2005
113
41

Expression of neuronal connexin36 in AII amacrine cells of the mammalian retina.
A Feigenspan, B Teubner, K Willecke, R Weiler. J Neurosci 2001
158
40

Functional expression of connexin57 in horizontal cells of the mouse retina.
Sonja Hombach, Ulrike Janssen-Bienhold, Goran Söhl, Timm Schubert, Heinrich Büssow, Thomas Ott, Reto Weiler, Klaus Willecke. Eur J Neurosci 2004
124
38

Morphology and tracer coupling pattern of alpha ganglion cells in the mouse retina.
Béla Völgyi, Joseph Abrams, David L Paul, Stewart A Bloomfield. J Comp Neurol 2005
66
37

Connexin36 is required for gap junctional coupling of most ganglion cell subtypes in the mouse retina.
Feng Pan, David L Paul, Stewart A Bloomfield, Béla Völgyi. J Comp Neurol 2010
54
44

Expression of connexin36 in cone pedicles and OFF-cone bipolar cells of the mouse retina.
Andreas Feigenspan, Ulrike Janssen-Bienhold, Sheriar Hormuzdi, Hannah Monyer, Joachim Degen, Goran Söhl, Klaus Willecke, Josef Ammermüller, Reto Weiler. J Neurosci 2004
96
34


Visual transmission deficits in mice with targeted disruption of the gap junction gene connexin36.
M Güldenagel, J Ammermüller, A Feigenspan, B Teubner, J Degen, G Söhl, K Willecke, R Weiler. J Neurosci 2001
185
31

Rod pathways in the mammalian retina use connexin 36.
S L Mills, J J O'Brien, W Li, J O'Brien, S C Massey. J Comp Neurol 2001
114
31

The diverse functional roles and regulation of neuronal gap junctions in the retina.
Stewart A Bloomfield, Béla Völgyi. Nat Rev Neurosci 2009
234
31

Expression and modulation of connexin 30.2, a novel gap junction protein in the mouse retina.
Luis Pérez de Sevilla Müller, Karin Dedek, Ulrike Janssen-Bienhold, Arndt Meyer, Maria M Kreuzberg, Susanne Lorenz, Klaus Willecke, Reto Weiler. Vis Neurosci 2010
39
53

Dendrodendritic electrical synapses between mammalian retinal ganglion cells.
Soh Hidaka, Yasushi Akahori, Yoshikazu Kurosawa. J Neurosci 2004
60
33

Expression patterns of connexin genes in mouse retina.
M Güldenagel, G Söhl, A Plum, O Traub, B Teubner, R Weiler, K Willecke. J Comp Neurol 2000
94
26



Different functional types of bipolar cells use different gap-junctional proteins.
Bin Lin, Tatjana C Jakobs, Richard H Masland. J Neurosci 2005
40
42

Expression and functions of neuronal gap junctions.
Goran Söhl, Stephan Maxeiner, Klaus Willecke. Nat Rev Neurosci 2005
362
23

The immunocytochemical localization of connexin 36 at rod and cone gap junctions in the guinea pig retina.
Eun-Jin Lee, Jung-Won Han, Hyun-Ju Kim, In-Beom Kim, Mun-Yong Lee, Su-Ja Oh, Jin-Woong Chung, Myung-Hoon Chun. Eur J Neurosci 2003
66
24

Localization of heterotypic gap junctions composed of connexin45 and connexin36 in the rod pathway of the mouse retina.
Karin Dedek, Konrad Schultz, Mario Pieper, Petra Dirks, Stephan Maxeiner, Klaus Willecke, Reto Weiler, Ulrike Janssen-Bienhold. Eur J Neurosci 2006
64
25

Connexin45-containing neuronal gap junctions in rodent retina also contain connexin36 in both apposing hemiplaques, forming bihomotypic gap junctions, with scaffolding contributed by zonula occludens-1.
Xinbo Li, Naomi Kamasawa, Cristina Ciolofan, Carl O Olson, Shijun Lu, Kimberly G V Davidson, Thomas Yasumura, Ryuichi Shigemoto, John E Rash, James I Nagy. J Neurosci 2008
78
23

Gap junctions are essential for generating the correlated spike activity of neighboring retinal ganglion cells.
Béla Völgyi, Feng Pan, David L Paul, Jack T Wang, Andrew D Huberman, Stewart A Bloomfield. PLoS One 2013
42
38

Morphological properties of mouse retinal ganglion cells.
J Coombs, D van der List, G-Y Wang, L M Chalupa. Neuroscience 2006
203
22

Large-scale morphological survey of mouse retinal ganglion cells.
Wenzhi Sun, Ning Li, Shigang He. J Comp Neurol 2002
258
22



An update on connexin genes and their nomenclature in mouse and man.
Goran Söhl, Klaus Willecke. Cell Commun Adhes 2003
332
20

Coupling between A-type horizontal cells is mediated by connexin 50 gap junctions in the rabbit retina.
Jennifer J O'Brien, Wei Li, Feng Pan, Joyce Keung, John O'Brien, Stephen C Massey. J Neurosci 2006
45
28


Mechanisms of concerted firing among retinal ganglion cells.
I H Brivanlou, D K Warland, M Meister. Neuron 1998
164
19

Convergence and segregation of the multiple rod pathways in mammalian retina.
Béla Völgyi, Michael R Deans, David L Paul, Stewart A Bloomfield. J Neurosci 2004
124
17

Diversity of ganglion cells in the mouse retina: unsupervised morphological classification and its limits.
Jee-Hyun Kong, Daniel R Fish, Rebecca L Rockhill, Richard H Masland. J Comp Neurol 2005
173
17

Light-induced changes in spike synchronization between coupled ON direction selective ganglion cells in the mammalian retina.
Jessica M Ackert, Synphen H Wu, Jacob C Lee, Joseph Abrams, Edward H Hu, Ido Perlman, Stewart A Bloomfield. J Neurosci 2006
59
20



Function and plasticity of homologous coupling between AII amacrine cells.
Stewart A Bloomfield, Béla Völgyi. Vision Res 2004
67
16



Gap junctions between photoreceptor cells in the vertebrate retina.
E Raviola, N B Gilula. Proc Natl Acad Sci U S A 1973
285
14

Multiple neuronal connexins in the mammalian retina.
Stephen C Massey, Jennifer J O'Brien, E Brady Trexler, Wei Li, Joyce W Keung, Stephen L Mills, John O'Brien. Cell Commun Adhes 2003
41
24

The major cell populations of the mouse retina.
C J Jeon, E Strettoi, R H Masland. J Neurosci 1998
879
14

Interactions between ganglion cells in cat retina.
D N Mastronarde. J Neurophysiol 1983
128
14

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
267
14

Expression of connexins 36, 43, and 45 during postnatal development of the mouse retina.
Alexandre Hiroaki Kihara, Leandro Mantovani de Castro, Mônica Aparecida Belmonte, Chao Yun Irene Yan, Anselmo Sigari Moriscot, Dânia Emi Hamassaki. J Neurobiol 2006
31
32

Photoreceptor coupling mediated by connexin36 in the primate retina.
Jennifer J O'Brien, Xiaoming Chen, Peter R Macleish, John O'Brien, Stephen C Massey. J Neurosci 2012
59
16

Gap junctional coupling in the vertebrate retina: variations on one theme?
Béla Völgyi, Tamás Kovács-Oller, Tamás Atlasz, Márta Wilhelm, Róbert Gábriel. Prog Retin Eye Res 2013
47
21

Parallel processing in the mammalian retina.
Heinz Wässle. Nat Rev Neurosci 2004
657
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.