A citation-based method for searching scientific literature

K Shibuki, H Gomi, L Chen, S Bao, J J Kim, H Wakatsuki, T Fujisaki, K Fujimoto, A Katoh, T Ikeda, C Chen, R F Thompson, S Itohara. Neuron 1996
Times Cited: 275







List of co-cited articles
1177 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Targeted deletion in astrocyte intermediate filament (Gfap) alters neuronal physiology.
M A McCall, R G Gregg, R R Behringer, M Brenner, C L Delaney, E J Galbreath, C L Zhang, R A Pearce, S Y Chiu, A Messing. Proc Natl Acad Sci U S A 1996
252
34

Deficient cerebellar long-term depression and impaired motor learning in mGluR1 mutant mice.
A Aiba, M Kano, C Chen, M E Stanton, G D Fox, K Herrup, T A Zwingman, S Tonegawa. Cell 1994
670
25

GFAP is necessary for the integrity of CNS white matter architecture and long-term maintenance of myelination.
W Liedtke, W Edelmann, P L Bieri, F C Chiu, N J Cowan, R Kucherlapati, C S Raine. Neuron 1996
364
21


Protoplasmic astrocytes in CA1 stratum radiatum occupy separate anatomical domains.
Eric A Bushong, Maryann E Martone, Ying Z Jones, Mark H Ellisman. J Neurosci 2002
821
14

Reevaluating the role of LTD in cerebellar motor learning.
Martijn Schonewille, Zhenyu Gao, Henk-Jan Boele, Maria F Vinueza Veloz, Wardell E Amerika, Antonia A M Simek, Marcel T De Jeu, Jordan P Steinberg, Kogo Takamiya, Freek E Hoebeek,[...]. Neuron 2011
202
14

Deficient long-term synaptic depression in the rostral cerebellum correlated with impaired motor learning in phospholipase C beta4 mutant mice.
M Miyata, H T Kim, K Hashimoto, T K Lee, S Y Cho, H Jiang, Y Wu, K Jun, D Wu, M Kano,[...]. Eur J Neurosci 2001
79
16

Glial fibrillary acidic protein: GFAP-thirty-one years (1969-2000).
L F Eng, R S Ghirnikar, Y L Lee. Neurochem Res 2000
891
13

A theory of cerebellar cortex.
D Marr. J Physiol 1969
12

Mice devoid of the glial fibrillary acidic protein develop normally and are susceptible to scrapie prions.
H Gomi, T Yokoyama, K Fujimoto, T Ikeda, A Katoh, T Itoh, S Itohara. Neuron 1995
213
12

Distributed synergistic plasticity and cerebellar learning.
Zhenyu Gao, Boeke J van Beugen, Chris I De Zeeuw. Nat Rev Neurosci 2012
284
12


Microdomains for neuron-glia interaction: parallel fiber signaling to Bergmann glial cells.
J Grosche, V Matyash, T Möller, A Verkhratsky, A Reichenbach, H Kettenmann. Nat Neurosci 1999
469
11


Mice lacking glial fibrillary acidic protein display astrocytes devoid of intermediate filaments but develop and reproduce normally.
M Pekny, P Levéen, M Pekna, C Eliasson, C H Berthold, B Westermark, C Betsholtz. EMBO J 1995
261
11


Loss of glial fibrillary acidic protein results in decreased glutamate transport and inhibition of PKA-induced EAAT2 cell surface trafficking.
Ethan G Hughes, Jamie L Maguire, Melanie T McMinn, Rachael E Scholz, Margaret L Sutherland. Brain Res Mol Brain Res 2004
102
11

Impaired delay but normal trace eyeblink conditioning in PLCbeta4 mutant mice.
Y Kishimoto, M Hirono, T Sugiyama, S Kawahara, K Nakao, M Kishio, M Katsuki, T Yoshioka, Y Kirino. Neuroreport 2001
45
22

Cerebellum-dependent learning: the role of multiple plasticity mechanisms.
Edward S Boyden, Akira Katoh, Jennifer L Raymond. Annu Rev Neurosci 2004
284
10

Impairment of LTD and cerebellar learning by Purkinje cell-specific ablation of cGMP-dependent protein kinase I.
Robert Feil, Jana Hartmann, Chongde Luo, Wiebke Wolfsgruber, Karl Schilling, Susanne Feil, Jaroslaw J Barski, Michael Meyer, Arthur Konnerth, Chris I De Zeeuw,[...]. J Cell Biol 2003
105
10

Cerebellar LTD and learning-dependent timing of conditioned eyelid responses.
S K E Koekkoek, H C Hulscher, B R Dortland, R A Hensbroek, Y Elgersma, T J H Ruigrok, C I De Zeeuw. Science 2003
201
10

Neural substrates of eyeblink conditioning: acquisition and retention.
Kimberly M Christian, Richard F Thompson. Learn Mem 2003
432
10


Acquisition, extinction, and reacquisition of a cerebellar cortical memory trace.
Dan-Anders Jirenhed, Fredrik Bengtsson, Germund Hesslow. J Neurosci 2007
192
10

mGluR1 in cerebellar Purkinje cells essential for long-term depression, synapse elimination, and motor coordination.
T Ichise, M Kano, K Hashimoto, D Yanagihara, K Nakao, R Shigemoto, M Katsuki, A Aiba. Science 2000
302
9

mGluR1 in cerebellar Purkinje cells is required for normal association of temporally contiguous stimuli in classical conditioning.
Yasushi Kishimoto, Ryoko Fujimichi, Kenji Araishi, Shigenori Kawahara, Masanobu Kano, Atsu Aiba, Yutaka Kirino. Eur J Neurosci 2002
57
15

Synapse formation is associated with memory storage in the cerebellum.
Jeffrey A Kleim, John H Freeman, Rochelle Bruneau, Brian C Nolan, Natalie R Cooper, Alison Zook, Drew Walters. Proc Natl Acad Sci U S A 2002
121
9

Classical conditioning using stimulation of the inferior olive as the unconditioned stimulus.
M D Mauk, J E Steinmetz, R F Thompson. Proc Natl Acad Sci U S A 1986
191
9

Normal motor learning during pharmacological prevention of Purkinje cell long-term depression.
John P Welsh, Hidetoshi Yamaguchi, Xiao-Hui Zeng, Masanobu Kojo, Yasushi Nakada, Akiko Takagi, Mutsuyuki Sugimori, Rodolfo R Llinás. Proc Natl Acad Sci U S A 2005
101
9

Synaptic islands defined by the territory of a single astrocyte.
Michael M Halassa, Tommaso Fellin, Hajime Takano, Jing-Hui Dong, Philip G Haydon. J Neurosci 2007
400
9


Long-term synaptic depression.
D J Linden, J A Connor. Annu Rev Neurosci 1995
330
8

Glial protein S100B modulates long-term neuronal synaptic plasticity.
Hiroshi Nishiyama, Thomas Knopfel, Shogo Endo, Shigeyoshi Itohara. Proc Natl Acad Sci U S A 2002
185
8


Intermediate filament protein partnership in astrocytes.
C Eliasson, C Sahlgren, C H Berthold, J Stakeberg, J E Celis, C Betsholtz, J E Eriksson, M Pekny. J Biol Chem 1999
277
8


Glia-synapse interaction through Ca2+-permeable AMPA receptors in Bergmann glia.
M Iino, K Goto, W Kakegawa, H Okado, M Sudo, S Ishiuchi, A Miwa, Y Takayasu, I Saito, K Tsuzuki,[...]. Science 2001
294
8

Astrocytic purinergic signaling coordinates synaptic networks.
Olivier Pascual, Kristen B Casper, Cathryn Kubera, Jing Zhang, Raquel Revilla-Sanchez, Jai-Yoon Sul, Hajime Takano, Stephen J Moss, Ken McCarthy, Philip G Haydon. Science 2005
850
8

Tripartite synapses: astrocytes process and control synaptic information.
Gertrudis Perea, Marta Navarrete, Alfonso Araque. Trends Neurosci 2009
877
8



Acquisition of classical conditioning without cerebellar cortex.
D G Lavond, J E Steinmetz. Behav Brain Res 1989
188
7

Glial fibrillary acidic protein: dynamic property and regulation by phosphorylation.
M Inagaki, Y Nakamura, M Takeda, T Nishimura, N Inagaki. Brain Pathol 1994
119
7

Tripartite synapses: glia, the unacknowledged partner.
A Araque, V Parpura, R P Sanzgiri, P G Haydon. Trends Neurosci 1999
7

GFAP and astrogliosis.
L F Eng, R S Ghirnikar. Brain Pathol 1994
617
7

Localization of a memory trace in the mammalian brain.
D J Krupa, J K Thompson, R F Thompson. Science 1993
331
7


Deletion of FMR1 in Purkinje cells enhances parallel fiber LTD, enlarges spines, and attenuates cerebellar eyelid conditioning in Fragile X syndrome.
S K E Koekkoek, K Yamaguchi, B A Milojkovic, B R Dortland, T J H Ruigrok, R Maex, W De Graaf, A E Smit, F VanderWerf, C E Bakker,[...]. Neuron 2005
295
7




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.