A citation-based method for searching scientific literature

Jay R Gibson, Michael Beierlein, Barry W Connors. J Neurophysiol 2005
Times Cited: 136







List of co-cited articles
1483 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Two networks of electrically coupled inhibitory neurons in neocortex.
J R Gibson, M Beierlein, B W Connors. Nature 1999
985
54


Electrical synapses in the mammalian brain.
Barry W Connors, Michael A Long. Annu Rev Neurosci 2004
447
34




Electrical synapses between GABA-releasing interneurons.
M Galarreta, S Hestrin. Nat Rev Neurosci 2001
283
27

Gap junctions between interneuron dendrites can enhance synchrony of gamma oscillations in distributed networks.
R D Traub, N Kopell, A Bibbig, E H Buhl, F E LeBeau, M A Whittington. J Neurosci 2001
238
25


The spatial dimensions of electrically coupled networks of interneurons in the neocortex.
Yael Amitai, Jay R Gibson, Michael Beierlein, Saundra L Patrick, Alice M Ho, Barry W Connors, David Golomb. J Neurosci 2002
160
23


Electrical coupling and neuronal synchronization in the Mammalian brain.
Michael V L Bennett, R Suzanne Zukin. Neuron 2004
447
23

Synchronization of electrically coupled pairs of inhibitory interneurons in neocortex.
Jaime G Mancilla, Timothy J Lewis, David J Pinto, John Rinzel, Barry W Connors. J Neurosci 2007
109
22

Rapid desynchronization of an electrically coupled interneuron network with sparse excitatory synaptic input.
Koen Vervaeke, Andrea Lorincz, Padraig Gleeson, Matteo Farinella, Zoltan Nusser, R Angus Silver. Neuron 2010
138
22

A novel network of multipolar bursting interneurons generates theta frequency oscillations in neocortex.
Maria Blatow, Andrei Rozov, Istvan Katona, Sheriar G Hormuzdi, Axel H Meyer, Miles A Whittington, Antonio Caputi, Hannah Monyer. Neuron 2003
217
21

Interneurons of the neocortical inhibitory system.
Henry Markram, Maria Toledo-Rodriguez, Yun Wang, Anirudh Gupta, Gilad Silberberg, Caizhi Wu. Nat Rev Neurosci 2004
21

Electrical synapses define networks of neocortical GABAergic neurons.
Shaul Hestrin, Mario Galarreta. Trends Neurosci 2005
184
20

Electrical synapses in the thalamic reticular nucleus.
Carole E Landisman, Michael A Long, Michael Beierlein, Michael R Deans, David L Paul, Barry W Connors. J Neurosci 2002
265
20


Impaired electrical signaling disrupts gamma frequency oscillations in connexin 36-deficient mice.
S G Hormuzdi, I Pais, F E LeBeau, S K Towers, A Rozov, E H Buhl, M A Whittington, H Monyer. Neuron 2001
371
18


Two dynamically distinct inhibitory networks in layer 4 of the neocortex.
Michael Beierlein, Jay R Gibson, Barry W Connors. J Neurophysiol 2003
381
17


Driving fast-spiking cells induces gamma rhythm and controls sensory responses.
Jessica A Cardin, Marie Carlén, Konstantinos Meletis, Ulf Knoblich, Feng Zhang, Karl Deisseroth, Li-Huei Tsai, Christopher I Moore. Nature 2009
16


Dynamics of spiking neurons with electrical coupling.
C C Chow, N Kopell. Neural Comput 2000
110
15

Gap junctions among dendrites of cortical GABAergic neurons establish a dense and widespread intercolumnar network.
Takaichi Fukuda, Toshio Kosaka, Wolf Singer, Ralf A W Galuske. J Neurosci 2006
124
15

Selective impairment of hippocampal gamma oscillations in connexin-36 knock-out mouse in vivo.
Derek L Buhl, Kenneth D Harris, Sheriar G Hormuzdi, Hanna Monyer, György Buzsáki. J Neurosci 2003
187
15

Parvalbumin neurons and gamma rhythms enhance cortical circuit performance.
Vikaas S Sohal, Feng Zhang, Ofer Yizhar, Karl Deisseroth. Nature 2009
15

Distinct subtypes of somatostatin-containing neocortical interneurons revealed in transgenic mice.
Yunyong Ma, Hang Hu, Albert S Berrebi, Peter H Mathers, Ariel Agmon. J Neurosci 2006
282
14

Electrical synapses and synchrony: the role of intrinsic currents.
Benjamin Pfeuty, Germán Mato, David Golomb, David Hansel. J Neurosci 2003
105
14

Long-term modulation of electrical synapses in the mammalian thalamus.
Carole E Landisman, Barry W Connors. Science 2005
112
14



Activity-dependent long-term depression of electrical synapses.
Julie S Haas, Baltazar Zavala, Carole E Landisman. Science 2011
93
13

Connexin expression in electrically coupled postnatal rat brain neurons.
L Venance, A Rozov, M Blatow, N Burnashev, D Feldmeyer, H Monyer. Proc Natl Acad Sci U S A 2000
195
12

Gap-junctional coupling between neurogliaform cells and various interneuron types in the neocortex.
Anna Simon, Szabolcs Oláh, Gábor Molnár, János Szabadics, Gábor Tamás. J Neurosci 2005
102
12



Fast synaptic inhibition promotes synchronized gamma oscillations in hippocampal interneuron networks.
Marlene Bartos, Imre Vida, Michael Frotscher, Axel Meyer, Hannah Monyer, Jorg R P Geiger, Peter Jonas. Proc Natl Acad Sci U S A 2002
324
12

Electrical coupling mediates tunable low-frequency oscillations and resonance in the cerebellar Golgi cell network.
Guillaume P Dugué, Nicolas Brunel, Vincent Hakim, Eric Schwartz, Mireille Chat, Maxime Lévesque, Richard Courtemanche, Clément Léna, Stéphane Dieudonné. Neuron 2009
137
12

Synchronization of neuronal activity in hippocampus by individual GABAergic interneurons.
S R Cobb, E H Buhl, K Halasy, O Paulsen, P Somogyi. Nature 1995
11

Synchronization and oscillatory dynamics in heterogeneous, mutually inhibited neurons.
J A White, C C Chow, J Ritt, C Soto-Treviño, N Kopell. J Comput Neurosci 1998
234
11



Functional properties of channels formed by the neuronal gap junction protein connexin36.
M Srinivas, R Rozental, T Kojima, R Dermietzel, M Mehler, D F Condorelli, J A Kessler, D C Spray. J Neurosci 1999
186
11


Neuronal oscillations in cortical networks.
György Buzsáki, Andreas Draguhn. Science 2004
10

Physiology of electrotonic junctions.
M V Bennett. Ann N Y Acad Sci 1966
328
10

Inhibition-based rhythms: experimental and mathematical observations on network dynamics.
M A Whittington, R D Traub, N Kopell, B Ermentrout, E H Buhl. Int J Psychophysiol 2000
512
10


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.