A citation-based method for searching scientific literature


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



Times Cited
  Times     Co-cited
Similarity


A theory of cerebellar cortex.
D Marr. J Physiol 1969
52

Convergence of pontine and proprioceptive streams onto multimodal cerebellar granule cells.
Cheng-Chiu Huang, Ken Sugino, Yasuyuki Shima, Caiying Guo, Suxia Bai, Brett D Mensh, Sacha B Nelson, Adam W Hantman. Elife 2013
137
42


Integration of quanta in cerebellar granule cells during sensory processing.
Paul Chadderton, Troy W Margrie, Michael Häusser. Nature 2004
498
38

A temporal basis for predicting the sensory consequences of motor commands in an electric fish.
Ann Kennedy, Greg Wayne, Patrick Kaifosh, Karina Alviña, L F Abbott, Nathaniel B Sawtell. Nat Neurosci 2014
84
38

Cerebellum-like structures and their implications for cerebellar function.
Curtis C Bell, Victor Han, Nathaniel B Sawtell. Annu Rev Neurosci 2008
170
33

Synaptic diversity enables temporal coding of coincident multisensory inputs in single neurons.
François P Chabrol, Alexander Arenz, Martin T Wiechert, Troy W Margrie, David A DiGregorio. Nat Neurosci 2015
110
33

High-fidelity transmission of sensory information by single cerebellar mossy fibre boutons.
Ede A Rancz, Taro Ishikawa, Ian Duguid, Paul Chadderton, Séverine Mahon, Michael Häusser. Nature 2007
203
30

The contribution of single synapses to sensory representation in vivo.
Alexander Arenz, R Angus Silver, Andreas T Schaefer, Troy W Margrie. Science 2008
141
30


The cerebellar microcircuit as an adaptive filter: experimental and computational evidence.
Paul Dean, John Porrill, Carl-Fredrik Ekerot, Henrik Jörntell. Nat Rev Neurosci 2010
217
25

Sensory transmission in cerebellar granule cells relies on similarly coded mossy fiber inputs.
Fredrik Bengtsson, Henrik Jörntell. Proc Natl Acad Sci U S A 2009
70
23

Multimodal sensory integration in single cerebellar granule cells in vivo.
Taro Ishikawa, Misa Shimuta, Michael Häusser. Elife 2015
70
23


What's a cerebellar circuit doing in the auditory system?
Donata Oertel, Eric D Young. Trends Neurosci 2004
224
20


Timing mechanisms in the cerebellum: testing predictions of a large-scale computer simulation.
J F Medina, K S Garcia, W L Nores, N M Taylor, M D Mauk. J Neurosci 2000
199
20

Network structure within the cerebellar input layer enables lossless sparse encoding.
Guy Billings, Eugenio Piasini, Andrea Lőrincz, Zoltan Nusser, R Angus Silver. Neuron 2014
69
20



Storage of a sensory pattern by anti-Hebbian synaptic plasticity in an electric fish.
C C Bell, A Caputi, K Grant, J Serrier. Proc Natl Acad Sci U S A 1993
89
19



Distributed synergistic plasticity and cerebellar learning.
Zhenyu Gao, Boeke J van Beugen, Chris I De Zeeuw. Nat Rev Neurosci 2012
311
17

Internal models in the cerebellum.
D M Wolpert, R C Miall, M Kawato. Trends Cogn Sci 1998
17

Cerebellum-dependent learning: the role of multiple plasticity mechanisms.
Edward S Boyden, Akira Katoh, Jennifer L Raymond. Annu Rev Neurosci 2004
291
15

Functions of interneurons in mouse cerebellum.
Neal H Barmack, Vadim Yakhnitsa. J Neurosci 2008
153
15



The unipolar brush cell: a remarkable neuron finally receiving deserved attention.
Enrico Mugnaini, Gabriella Sekerková, Marco Martina. Brain Res Rev 2011
89
15

Cell-specific, spike timing-dependent plasticities in the dorsal cochlear nucleus.
Thanos Tzounopoulos, Yuil Kim, Donata Oertel, Laurence O Trussell. Nat Neurosci 2004
215
14

Adaptive mechanisms in the elasmobranch hindbrain
Bodznick, Montgomery, Carey. J Exp Biol 1999
49
18

Cerebellar circuitry as a neuronal machine.
Masao Ito. Prog Neurobiol 2006
501
14

Timing and plasticity in the cerebellum: focus on the granular layer.
Egidio D'Angelo, Chris I De Zeeuw. Trends Neurosci 2009
213
14

Sensory representations in cerebellar granule cells.
Alexander Arenz, Edward F Bracey, Troy W Margrie. Curr Opin Neurobiol 2009
29
31

Evolution of cerebellum-like structures.
Curtis C Bell. Brain Behav Evol 2002
72
14

Corollary discharge across the animal kingdom.
Trinity B Crapse, Marc A Sommer. Nat Rev Neurosci 2008
352
14

Synaptic representation of locomotion in single cerebellar granule cells.
Kate Powell, Alexandre Mathy, Ian Duguid, Michael Häusser. Elife 2015
69
14

Sensorimotor Representations in Cerebellar Granule Cells in Larval Zebrafish Are Dense, Spatially Organized, and Non-temporally Patterned.
Laura D Knogler, Daniil A Markov, Elena I Dragomir, Vilim Štih, Ruben Portugues. Curr Biol 2017
46
19

The generation and subtraction of sensory expectations within cerebellum-like structures.
C Bell, D Bodznick, J Montgomery, J Bastian. Brain Behav Evol 1997
145
12





Cerebellum predicts the future motor state.
Timothy J Ebner, Siavash Pasalar. Cerebellum 2008
108
12



Widespread state-dependent shifts in cerebellar activity in locomoting mice.
Ilker Ozden, Daniel A Dombeck, Tycho M Hoogland, David W Tank, Samuel S-H Wang. PLoS One 2012
72
12

Cerebellar granule cells encode the expectation of reward.
Mark J Wagner, Tony Hyun Kim, Joan Savall, Mark J Schnitzer, Liqun Luo. Nature 2017
216
12

Cerebellar granule cells acquire a widespread predictive feedback signal during motor learning.
Andrea Giovannucci, Aleksandra Badura, Ben Deverett, Farzaneh Najafi, Talmo D Pereira, Zhenyu Gao, Ilker Ozden, Alexander D Kloth, Eftychios Pnevmatikakis, Liam Paninski,[...]. Nat Neurosci 2017
95
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.