A citation-based method for searching scientific literature

Isaac Cervantes-Sandoval, Anna Phan, Molee Chakraborty, Ronald L Davis. Elife 2017
Times Cited: 39







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



Times Cited
  Times     Co-cited
Similarity


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
477
71

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
320
64

A connectome of a learning and memory center in the adult Drosophila brain.
Shin-Ya Takemura, Yoshinori Aso, Toshihide Hige, Allan Wong, Zhiyuan Lu, C Shan Xu, Patricia K Rivlin, Harald Hess, Ting Zhao, Toufiq Parag,[...]. Elife 2017
166
61


Heterosynaptic Plasticity Underlies Aversive Olfactory Learning in Drosophila.
Toshihide Hige, Yoshinori Aso, Mehrab N Modi, Gerald M Rubin, Glenn C Turner. Neuron 2015
159
56


A subset of dopamine neurons signals reward for odour memory in Drosophila.
Chang Liu, Pierre-Yves Plaçais, Nobuhiro Yamagata, Barret D Pfeiffer, Yoshinori Aso, Anja B Friedrich, Igor Siwanowicz, Gerald M Rubin, Thomas Preat, Hiromu Tanimoto. Nature 2012
324
51

Layered reward signalling through octopamine and dopamine in Drosophila.
Christopher J Burke, Wolf Huetteroth, David Owald, Emmanuel Perisse, Michael J Krashes, Gaurav Das, Daryl Gohl, Marion Silies, Sarah Certel, Scott Waddell. Nature 2012
321
48

Activity of defined mushroom body output neurons underlies learned olfactory behavior in Drosophila.
David Owald, Johannes Felsenberg, Clifford B Talbot, Gaurav Das, Emmanuel Perisse, Wolf Huetteroth, Scott Waddell. Neuron 2015
153
48

Mushroom body memoir: from maps to models.
Martin Heisenberg. Nat Rev Neurosci 2003
826
48


Writing memories with light-addressable reinforcement circuitry.
Adam Claridge-Chang, Robert D Roorda, Eleftheria Vrontou, Lucas Sjulson, Haiyan Li, Jay Hirsh, Gero Miesenböck. Cell 2009
307
43

Dopamine and octopamine differentiate between aversive and appetitive olfactory memories in Drosophila.
Martin Schwaerzel, Maria Monastirioti, Henrike Scholz, Florence Friggi-Grelin, Serge Birman, Martin Heisenberg. J Neurosci 2003
511
41

Specific dopaminergic neurons for the formation of labile aversive memory.
Yoshinori Aso, Igor Siwanowicz, Lasse Bräcker, Kei Ito, Toshihiro Kitamoto, Hiromu Tanimoto. Curr Biol 2010
186
41

Neuronal assemblies of the Drosophila mushroom body.
Nobuaki K Tanaka, Hiromu Tanimoto, Kei Ito. J Comp Neurol 2008
294
38

Aversive Learning and Appetitive Motivation Toggle Feed-Forward Inhibition in the Drosophila Mushroom Body.
Emmanuel Perisse, David Owald, Oliver Barnstedt, Clifford B Talbot, Wolf Huetteroth, Scott Waddell. Neuron 2016
89
38

The complete connectome of a learning and memory centre in an insect brain.
Katharina Eichler, Feng Li, Ashok Litwin-Kumar, Youngser Park, Ingrid Andrade, Casey M Schneider-Mizell, Timo Saumweber, Annina Huser, Claire Eschbach, Bertram Gerber,[...]. Nature 2017
200
38

Dopamine is required for learning and forgetting in Drosophila.
Jacob A Berry, Isaac Cervantes-Sandoval, Eric P Nicholas, Ronald L Davis. Neuron 2012
162
35


Three dopamine pathways induce aversive odor memories with different stability.
Yoshinori Aso, Andrea Herb, Maite Ogueta, Igor Siwanowicz, Thomas Templier, Anja B Friedrich, Kei Ito, Henrike Scholz, Hiromu Tanimoto. PLoS Genet 2012
147
35

Reward signal in a recurrent circuit drives appetitive long-term memory formation.
Toshiharu Ichinose, Yoshinori Aso, Nobuhiro Yamagata, Ayako Abe, Gerald M Rubin, Hiromu Tanimoto. Elife 2015
68
35

Re-evaluation of learned information in Drosophila.
Johannes Felsenberg, Oliver Barnstedt, Paola Cognigni, Suewei Lin, Scott Waddell. Nature 2017
60
33

Olfactory representations by Drosophila mushroom body neurons.
Glenn C Turner, Maxim Bazhenov, Gilles Laurent. J Neurophysiol 2008
221
33

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
134
30


Dopaminergic modulation of cAMP drives nonlinear plasticity across the Drosophila mushroom body lobes.
Tamara Boto, Thierry Louis, Kantiya Jindachomthong, Kees Jalink, Seth M Tomchik. Curr Biol 2014
57
30

Neural correlates of water reward in thirsty Drosophila.
Suewei Lin, David Owald, Vikram Chandra, Clifford Talbot, Wolf Huetteroth, Scott Waddell. Nat Neurosci 2014
116
30


Mushroom body efferent neurons responsible for aversive olfactory memory retrieval in Drosophila.
Julien Séjourné, Pierre-Yves Plaçais, Yoshinori Aso, Igor Siwanowicz, Séverine Trannoy, Vladimiros Thoma, Stevanus R Tedjakumala, Gerald M Rubin, Paul Tchénio, Kei Ito,[...]. Nat Neurosci 2011
145
30

Light-induced activation of distinct modulatory neurons triggers appetitive or aversive learning in Drosophila larvae.
Christian Schroll, Thomas Riemensperger, Daniel Bucher, Julia Ehmer, Thomas Völler, Karen Erbguth, Bertram Gerber, Thomas Hendel, Georg Nagel, Erich Buchner,[...]. Curr Biol 2006
394
30


Two pairs of mushroom body efferent neurons are required for appetitive long-term memory retrieval in Drosophila.
Pierre-Yves Plaçais, Séverine Trannoy, Anja B Friedrich, Hiromu Tanimoto, Thomas Preat. Cell Rep 2013
62
28


Two independent mushroom body output circuits retrieve the six discrete components of Drosophila aversive memory.
Emna Bouzaiane, Séverine Trannoy, Lisa Scheunemann, Pierre-Yves Plaçais, Thomas Preat. Cell Rep 2015
82
28

A neural circuit mechanism integrating motivational state with memory expression in Drosophila.
Michael J Krashes, Shamik DasGupta, Andrew Vreede, Benjamin White, J Douglas Armstrong, Scott Waddell. Cell 2009
354
28

Sweet taste and nutrient value subdivide rewarding dopaminergic neurons in Drosophila.
Wolf Huetteroth, Emmanuel Perisse, Suewei Lin, Martín Klappenbach, Christopher Burke, Scott Waddell. Curr Biol 2015
114
28

Punishment prediction by dopaminergic neurons in Drosophila.
Thomas Riemensperger, Thomas Völler, Patrick Stock, Erich Buchner, André Fiala. Curr Biol 2005
217
25



Distinct dopamine neurons mediate reward signals for short- and long-term memories.
Nobuhiro Yamagata, Toshiharu Ichinose, Yoshinori Aso, Pierre-Yves Plaçais, Anja B Friedrich, Richard J Sima, Thomas Preat, Gerald M Rubin, Hiromu Tanimoto. Proc Natl Acad Sci U S A 2015
120
25

Drosophila mushroom body mutants are deficient in olfactory learning.
M Heisenberg, A Borst, S Wagner, D Byers. J Neurogenet 1985
515
25

Representations of Novelty and Familiarity in a Mushroom Body Compartment.
Daisuke Hattori, Yoshinori Aso, Kurtis J Swartz, Gerald M Rubin, L F Abbott, Richard Axel. Cell 2017
58
25

A GAL4-driver line resource for Drosophila neurobiology.
Arnim Jenett, Gerald M Rubin, Teri-T B Ngo, David Shepherd, Christine Murphy, Heather Dionne, Barret D Pfeiffer, Amanda Cavallaro, Donald Hall, Jennifer Jeter,[...]. Cell Rep 2012
754
25

Imaging of an early memory trace in the Drosophila mushroom body.
Yalin Wang, Akira Mamiya, Ann-shyn Chiang, Yi Zhong. J Neurosci 2008
96
23

Gamma neurons mediate dopaminergic input during aversive olfactory memory formation in Drosophila.
Hongtao Qin, Michael Cressy, Wanhe Li, Jonathan S Coravos, Stephanie A Izzi, Joshua Dubnau. Curr Biol 2012
117
23



Memory-Relevant Mushroom Body Output Synapses Are Cholinergic.
Oliver Barnstedt, David Owald, Johannes Felsenberg, Ruth Brain, John-Paul Moszynski, Clifford B Talbot, Paola N Perrat, Scott Waddell. Neuron 2016
80
23

Spatiotemporal rescue of memory dysfunction in Drosophila.
Sean E McGuire, Phuong T Le, Alexander J Osborn, Kunihiro Matsumoto, Ronald L Davis. Science 2003
899
23

Suppression of Dopamine Neurons Mediates Reward.
Nobuhiro Yamagata, Makoto Hiroi, Shu Kondo, Ayako Abe, Hiromu Tanimoto. PLoS Biol 2016
39
23


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.