A citation-based method for searching scientific literature

S A Shamma, J W Fleshman, P R Wiser, H Versnel. J Neurophysiol 1993
Times Cited: 187







List of co-cited articles
1077 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Topography and synaptic shaping of direction selectivity in primary auditory cortex.
Li I Zhang, Andrew Y Y Tan, Christoph E Schreiner, Michael M Merzenich. Nature 2003
283
32


Functional topography of cat primary auditory cortex: responses to frequency-modulated sweeps.
J R Mendelson, C E Schreiner, M L Sutter, K L Grasse. Exp Brain Res 1993
123
27

Optimizing sound features for cortical neurons.
R C deCharms, D T Blake, M M Merzenich. Science 1998
309
25

Rapid task-related plasticity of spectrotemporal receptive fields in primary auditory cortex.
Jonathan Fritz, Shihab Shamma, Mounya Elhilali, David Klein. Nat Neurosci 2003
517
25



Robust spectrotemporal reverse correlation for the auditory system: optimizing stimulus design.
D J Klein, D A Depireux, J Z Simon, S A Shamma. J Comput Neurosci 2000
155
22




Modular organization of frequency integration in primary auditory cortex.
C E Schreiner, H L Read, M L Sutter. Annu Rev Neurosci 2000
169
18

Processing of low-probability sounds by cortical neurons.
Nachum Ulanovsky, Liora Las, Israel Nelken. Nat Neurosci 2003
669
18

Monaural inhibition in cat auditory cortex.
M B Calford, M N Semple. J Neurophysiol 1995
223
17

Representation of cochlea within primary auditory cortex in the cat.
M M Merzenich, P L Knight, G L Roth. J Neurophysiol 1975
521
16




Spectrotemporal structure of receptive fields in areas AI and AAF of mouse auditory cortex.
Jennifer F Linden, Robert C Liu, Maneesh Sahani, Christoph E Schreiner, Michael M Merzenich. J Neurophysiol 2003
159
16


Organization of inhibitory frequency receptive fields in cat primary auditory cortex.
M L Sutter, C E Schreiner, M McLean, K N O'connor, W C Loftus. J Neurophysiol 1999
133
15

Spectrotemporal receptive fields in the lemniscal auditory thalamus and cortex.
Lee M Miller, Monty A EscabĂ­, Heather L Read, Christoph E Schreiner. J Neurophysiol 2002
225
15


Functional organization of squirrel monkey primary auditory cortex: responses to frequency-modulation sweeps.
Benoit Godey, Craig A Atencio, Ben H Bonham, Christoph E Schreiner, Steven W Cheung. J Neurophysiol 2005
38
39




Linearity of cortical receptive fields measured with natural sounds.
Christian K Machens, Michael S Wehr, Anthony M Zador. J Neurosci 2004
200
14






Differential dynamic plasticity of A1 receptive fields during multiple spectral tasks.
Jonathan B Fritz, Mounya Elhilali, Shihab A Shamma. J Neurosci 2005
152
13


Spectro-temporal modulation transfer functions and speech intelligibility.
T Chi, Y Gao, M C Guyton, P Ru, S Shamma. J Acoust Soc Am 1999
160
11


Functional organization of spectral receptive fields in the primary auditory cortex of the owl monkey.
G H Recanzone, C E Schreiner, M L Sutter, R E Beitel, M M Merzenich. J Comp Neurol 1999
87
12



Functional organization of ferret auditory cortex.
Jennifer K Bizley, Fernando R Nodal, Israel Nelken, Andrew J King. Cereb Cortex 2005
138
11

Frequency-modulation encoding in the primary auditory cortex of the awake owl monkey.
Craig A Atencio, David T Blake, Fabrizio Strata, Steven W Cheung, Michael M Merzenich, Christoph E Schreiner. J Neurophysiol 2007
43
25

Responses to time-varying stimuli in rat auditory cortex.
C Ricketts, J R Mendelson, B Anand, R English. Hear Res 1998
35
28

Tone-evoked excitatory and inhibitory synaptic conductances of primary auditory cortex neurons.
Andrew Y Y Tan, Li I Zhang, Michael M Merzenich, Christoph E Schreiner. J Neurophysiol 2004
211
10


Nonlinear spectrotemporal sound analysis by neurons in the auditory midbrain.
Monty A Escabi, Christoph E Schreiner. J Neurosci 2002
147
10

Lateral sharpening of cortical frequency tuning by approximately balanced inhibition.
Guangying K Wu, Robert Arbuckle, Bao-Hua Liu, Huizhong W Tao, Li I Zhang. Neuron 2008
203
10



Tonotopic organization in auditory cortex of the cat.
R A Reale, T J Imig. J Comp Neurol 1980
414
9


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.