A citation-based method for searching scientific literature

Shawn R Olsen, Vikas Bhandawat, Rachel I Wilson. Neuron 2010
Times Cited: 245







List of co-cited articles
1146 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Normalization as a canonical neural computation.
Matteo Carandini, David J Heeger. Nat Rev Neurosci 2011
825
36


Coding of odors by a receptor repertoire.
Elissa A Hallem, John R Carlson. Cell 2006
703
27


Sensory processing in the Drosophila antennal lobe increases reliability and separability of ensemble odor representations.
Vikas Bhandawat, Shawn R Olsen, Nathan W Gouwens, Michelle L Schlief, Rachel I Wilson. Nat Neurosci 2007
213
25

Diversity and wiring variability of olfactory local interneurons in the Drosophila antennal lobe.
Ya-Hui Chou, Maria L Spletter, Emre Yaksi, Jonathan C S Leong, Rachel I Wilson, Liqun Luo. Nat Neurosci 2010
207
22

A presynaptic gain control mechanism fine-tunes olfactory behavior.
Cory M Root, Kaoru Masuyama, David S Green, Lina E Enell, Dick R Nässel, Chi-Hon Lee, Jing W Wang. Neuron 2008
217
19

Biophysical mechanisms underlying olfactory receptor neuron dynamics.
Katherine I Nagel, Rachel I Wilson. Nat Neurosci 2011
104
18

The neuronal architecture of the mushroom body provides a logic for associative learning.
Yoshinori Aso, Daisuke Hattori, Yang Yu, Rebecca M Johnston, Nirmala A Iyer, Teri-T B Ngo, Heather Dionne, L F Abbott, Richard Axel, Hiromu Tanimoto,[...]. Elife 2014
466
18

The normalization model of attention.
John H Reynolds, David J Heeger. Neuron 2009
738
17

Sparse, decorrelated odor coding in the mushroom body enhances learned odor discrimination.
Andrew C Lin, Alexei M Bygrave, Alix de Calignon, Tzumin Lee, Gero Miesenböck. Nat Neurosci 2014
132
17


Molecular, anatomical, and functional organization of the Drosophila olfactory system.
Africa Couto, Mattias Alenius, Barry J Dickson. Curr Biol 2005
594
16

Random convergence of olfactory inputs in the Drosophila mushroom body.
Sophie J C Caron, Vanessa Ruta, L F Abbott, Richard Axel. Nature 2013
196
16


Synaptic and circuit mechanisms promoting broadband transmission of olfactory stimulus dynamics.
Katherine I Nagel, Elizabeth J Hong, Rachel I Wilson. Nat Neurosci 2015
50
30

Comprehensive maps of Drosophila higher olfactory centers: spatially segregated fruit and pheromone representation.
Gregory S X E Jefferis, Christopher J Potter, Alexander M Chan, Elizabeth C Marin, Torsten Rohlfing, Calvin R Maurer, Liqun Luo. Cell 2007
377
13

An olfactory sensory map in the fly brain.
L B Vosshall, A M Wong, R Axel. Cell 2000
714
13

Generating sparse and selective third-order responses in the olfactory system of the fly.
Sean X Luo, Richard Axel, L F Abbott. Proc Natl Acad Sci U S A 2010
76
17

Combinatorial receptor codes for odors.
B Malnic, J Hirono, T Sato, L B Buck. Cell 1999
13


Olfactory representations by Drosophila mushroom body neurons.
Glenn C Turner, Maxim Bazhenov, Gilles Laurent. J Neurophysiol 2008
219
13

Transformation of olfactory representations in the Drosophila antennal lobe.
Rachel I Wilson, Glenn C Turner, Gilles Laurent. Science 2004
372
12

Intensity invariant dynamics and odor-specific latencies in olfactory receptor neuron response.
Carlotta Martelli, John R Carlson, Thierry Emonet. J Neurosci 2013
73
16

Genetic and functional subdivision of the Drosophila antennal lobe.
Elane Fishilevich, Leslie B Vosshall. Curr Biol 2005
391
12

Odor discrimination in Drosophila: from neural population codes to behavior.
Moshe Parnas, Andrew C Lin, Wolf Huetteroth, Gero Miesenböck. Neuron 2013
78
15


Cellular-resolution population imaging reveals robust sparse coding in the Drosophila mushroom body.
Kyle S Honegger, Robert A A Campbell, Glenn C Turner. J Neurosci 2011
126
12

Intensity versus identity coding in an olfactory system.
Mark Stopfer, Vivek Jayaraman, Gilles Laurent. Neuron 2003
343
12


A spatial map of olfactory receptor expression in the Drosophila antenna.
L B Vosshall, H Amrein, P S Morozov, A Rzhetsky, R Axel. Cell 1999
764
12

Olfactory receptor neurons use gain control and complementary kinetics to encode intermittent odorant stimuli.
Srinivas Gorur-Shandilya, Mahmut Demir, Junjiajia Long, Damon A Clark, Thierry Emonet. Elife 2017
38
31

Ultrasensitive fluorescent proteins for imaging neuronal activity.
Tsai-Wen Chen, Trevor J Wardill, Yi Sun, Stefan R Pulver, Sabine L Renninger, Amy Baohan, Eric R Schreiter, Rex A Kerr, Michael B Orger, Vivek Jayaraman,[...]. Nature 2013
11

The wiring diagram of a glomerular olfactory system.
Matthew E Berck, Avinash Khandelwal, Lindsey Claus, Luis Hernandez-Nunez, Guangwei Si, Christopher J Tabone, Feng Li, James W Truman, Rick D Fetter, Matthieu Louis,[...]. Elife 2016
97
11



Representation of the glomerular olfactory map in the Drosophila brain.
Elizabeth C Marin, Gregory S X E Jefferis, Takaki Komiyama, Haitao Zhu, Liqun Luo. Cell 2002
327
11

Two-photon calcium imaging reveals an odor-evoked map of activity in the fly brain.
Jing W Wang, Allan M Wong, Jorge Flores, Leslie B Vosshall, Richard Axel. Cell 2003
573
11

Electrical coupling between olfactory glomeruli.
Emre Yaksi, Rachel I Wilson. Neuron 2010
111
10



Origins of correlated activity in an olfactory circuit.
Hokto Kazama, Rachel I Wilson. Nat Neurosci 2009
94
10

A normalization model of multisensory integration.
Tomokazu Ohshiro, Dora E Angelaki, Gregory C DeAngelis. Nat Neurosci 2011
143
10



Odor coding in the Drosophila antenna.
M de Bruyne, K Foster, J R Carlson. Neuron 2001
491
10


Mushroom body output neurons encode valence and guide memory-based action selection in Drosophila.
Yoshinori Aso, Divya Sitaraman, Toshiharu Ichinose, Karla R Kaun, Katrin Vogt, Ghislain Belliart-Guérin, Pierre-Yves Plaçais, Alice A Robie, Nobuhiro Yamagata, Christopher Schnaitmann,[...]. Elife 2014
311
10

Olfactory perception: receptors, cells, and circuits.
Chih-Ying Su, Karen Menuz, John R Carlson. Cell 2009
284
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.