A citation-based method for searching scientific literature

The embryonic preoptic area is a novel source of cortical GABAergic interneurons.
Diego M Gelman, Francisco J Martini, Sandrina Nóbrega-Pereira, Alessandra Pierani, Nicoletta Kessaris, Oscar Marín. J Neurosci 2009
Times Cited: 192






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List of co-cited articles
1749 articles co-cited >1



Times Cited
  Times     Co-cited
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Delineation of multiple subpallial progenitor domains by the combinatorial expression of transcriptional codes.
Nuria Flames, Ramón Pla, Diego M Gelman, John L R Rubenstein, Luis Puelles, Oscar Marín. J Neurosci 2007
388
50
50

Genetic fate mapping reveals that the caudal ganglionic eminence produces a large and diverse population of superficial cortical interneurons.
Goichi Miyoshi, Jens Hjerling-Leffler, Theofanis Karayannis, Vitor H Sousa, Simon J B Butt, James Battiste, Jane E Johnson, Robert P Machold, Gord Fishell. J Neurosci 2010
383
49
49

A wide diversity of cortical GABAergic interneurons derives from the embryonic preoptic area.
Diego Gelman, Amélie Griveau, Nathalie Dehorter, Anne Teissier, Carolina Varela, Ramón Pla, Alessandra Pierani, Oscar Marín. J Neurosci 2011
118
48
48

Origins of cortical interneuron subtypes.
Qing Xu, Inma Cobos, Estanislao De La Cruz, John L Rubenstein, Stewart A Anderson. J Neurosci 2004
470
43
43

Spatial genetic patterning of the embryonic neuroepithelium generates GABAergic interneuron diversity in the adult cortex.
Matthew Fogarty, Matthew Grist, Diego Gelman, Oscar Marín, Vassilis Pachnis, Nicoletta Kessaris. J Neurosci 2007
292
41
41

The largest group of superficial neocortical GABAergic interneurons expresses ionotropic serotonin receptors.
SooHyun Lee, Jens Hjerling-Leffler, Edward Zagha, Gord Fishell, Bernardo Rudy. J Neurosci 2010
398
39
39

The temporal and spatial origins of cortical interneurons predict their physiological subtype.
Simon J B Butt, Marc Fuccillo, Susana Nery, Steven Noctor, Arnold Kriegstein, Joshua G Corbin, Gord Fishell. Neuron 2005
412
39
39

The origin and specification of cortical interneurons.
Carl P Wonders, Stewart A Anderson. Nat Rev Neurosci 2006
654
38
38

The caudal ganglionic eminence is a source of distinct cortical and subcortical cell populations.
Susana Nery, Gord Fishell, Joshua G Corbin. Nat Neurosci 2002
404
37
37

Loss of Nkx2.1 homeobox gene function results in a ventral to dorsal molecular respecification within the basal telencephalon: evidence for a transformation of the pallidum into the striatum.
L Sussel, O Marin, S Kimura, J L Rubenstein. Development 1999
677
36
36

Interneuron migration from basal forebrain to neocortex: dependence on Dlx genes.
S A Anderson, D D Eisenstat, L Shi, J L Rubenstein. Science 1997
1139
33
33

Lhx6 activity is required for the normal migration and specification of cortical interneuron subtypes.
Petros Liodis, Myrto Denaxa, Marirena Grigoriou, Cynthia Akufo-Addo, Yuchio Yanagawa, Vassilis Pachnis. J Neurosci 2007
266
32
32

In utero fate mapping reveals distinct migratory pathways and fates of neurons born in the mammalian basal forebrain.
H Wichterle, D H Turnbull, S Nery, G Fishell, A Alvarez-Buylla. Development 2001
530
32
32

The requirement of Nkx2-1 in the temporal specification of cortical interneuron subtypes.
Simon J B Butt, Vitor H Sousa, Marc V Fuccillo, Jens Hjerling-Leffler, Goichi Miyoshi, Shioko Kimura, Gord Fishell. Neuron 2008
227
32
32

Three groups of interneurons account for nearly 100% of neocortical GABAergic neurons.
Bernardo Rudy, Gordon Fishell, SooHyun Lee, Jens Hjerling-Leffler. Dev Neurobiol 2011
808
32
32

Fate mapping Nkx2.1-lineage cells in the mouse telencephalon.
Qing Xu, Melissa Tam, Stewart A Anderson. J Comp Neurol 2008
373
30
30

A long, remarkable journey: tangential migration in the telencephalon.
O Marín, J L Rubenstein. Nat Rev Neurosci 2001
759
29
29

Interneuron dysfunction in psychiatric disorders.
Oscar Marín. Nat Rev Neurosci 2012
711
29
29

Physiologically distinct temporal cohorts of cortical interneurons arise from telencephalic Olig2-expressing precursors.
Goichi Miyoshi, Simon J B Butt, Hirohide Takebayashi, Gord Fishell. J Neurosci 2007
288
28
28

Distinct cortical migrations from the medial and lateral ganglionic eminences.
S A Anderson, O Marín, C Horn, K Jennings, J L Rubenstein. Development 2001
483
26
26

The cell-intrinsic requirement of Sox6 for cortical interneuron development.
Renata Batista-Brito, Elsa Rossignol, Jens Hjerling-Leffler, Myrto Denaxa, Michael Wegner, Véronique Lefebvre, Vassilis Pachnis, Gord Fishell. Neuron 2009
151
25
25

A spatial bias for the origins of interneuron subgroups within the medial ganglionic eminence.
Carl P Wonders, Lauren Taylor, Jelle Welagen, Ihunanya C Mbata, Jenny Z Xiang, Stewart A Anderson. Dev Biol 2008
146
25
25

Prox1 Regulates the Subtype-Specific Development of Caudal Ganglionic Eminence-Derived GABAergic Cortical Interneurons.
Goichi Miyoshi, Allison Young, Timothy Petros, Theofanis Karayannis, Melissa McKenzie Chang, Alfonso Lavado, Tomohiko Iwano, Miho Nakajima, Hiroki Taniguchi, Z Josh Huang,[...]. J Neurosci 2015
79
25
31

NKX2.1 specifies cortical interneuron fate by activating Lhx6.
Tonggong Du, Qing Xu, Polloneal J Ocbina, Stewart A Anderson. Development 2008
162
24
24

Petilla terminology: nomenclature of features of GABAergic interneurons of the cerebral cortex.
Giorgio A Ascoli, Lidia Alonso-Nanclares, Stewart A Anderson, German Barrionuevo, Ruth Benavides-Piccione, Andreas Burkhalter, György Buzsáki, Bruno Cauli, Javier Defelipe, Alfonso Fairén,[...]. Nat Rev Neurosci 2008
988
24
24

GABAergic interneuron lineages selectively sort into specific cortical layers during early postnatal development.
Goichi Miyoshi, Gord Fishell. Cereb Cortex 2011
142
23
23

The medial ganglionic eminence gives rise to a population of early neurons in the developing cerebral cortex.
A A Lavdas, M Grigoriou, V Pachnis, J G Parnavelas. J Neurosci 1999
566
23
23

The spatial and temporal origin of chandelier cells in mouse neocortex.
Hiroki Taniguchi, Jiangteng Lu, Z Josh Huang. Science 2013
178
23
23

Interneuron cell types are fit to function.
Adam Kepecs, Gordon Fishell. Nature 2014
630
23
23

Interneurons of the neocortical inhibitory system.
Henry Markram, Maria Toledo-Rodriguez, Yun Wang, Anirudh Gupta, Gilad Silberberg, Caizhi Wu. Nat Rev Neurosci 2004
1944
22
22

Intrinsically determined cell death of developing cortical interneurons.
Derek G Southwell, Mercedes F Paredes, Rui P Galvao, Daniel L Jones, Robert C Froemke, Joy Y Sebe, Clara Alfaro-Cervello, Yunshuo Tang, Jose M Garcia-Verdugo, John L Rubenstein,[...]. Nature 2012
208
22
22

Non-epithelial stem cells and cortical interneuron production in the human ganglionic eminences.
David V Hansen, Jan H Lui, Pierre Flandin, Kazuaki Yoshikawa, John L Rubenstein, Arturo Alvarez-Buylla, Arnold R Kriegstein. Nat Neurosci 2013
188
22
22

COUP-TFII is preferentially expressed in the caudal ganglionic eminence and is involved in the caudal migratory stream.
Shigeaki Kanatani, Masato Yozu, Hidenori Tabata, Kazunori Nakajima. J Neurosci 2008
116
21
21

Cellular and molecular mechanisms controlling the migration of neocortical interneurons.
Oscar Marín. Eur J Neurosci 2013
135
21
21

Excitatory projection neuron subtypes control the distribution of local inhibitory interneurons in the cerebral cortex.
Simona Lodato, Caroline Rouaux, Kathleen B Quast, Chanati Jantrachotechatchawan, Michèle Studer, Takao K Hensch, Paola Arlotta. Neuron 2011
142
21
21

SOX6 controls dorsal progenitor identity and interneuron diversity during neocortical development.
Eiman Azim, Denis Jabaudon, Ryann M Fame, Jeffrey D Macklis. Nat Neurosci 2009
139
21
21

Spatial and temporal bias in the mitotic origins of somatostatin- and parvalbumin-expressing interneuron subgroups and the chandelier subtype in the medial ganglionic eminence.
Melis Inan, Jelle Welagen, Stewart A Anderson. Cereb Cortex 2012
107
21
21

Distinct molecular pathways for development of telencephalic interneuron subtypes revealed through analysis of Lhx6 mutants.
Yangu Zhao, Pierre Flandin, Jason E Long, Melissa Dela Cuesta, Heiner Westphal, John L R Rubenstein. J Comp Neurol 2008
156
20
20

Generation of interneuron diversity in the mouse cerebral cortex.
Diego M Gelman, Oscar Marín. Eur J Neurosci 2010
137
20
20

Subcortical origins of human and monkey neocortical interneurons.
Tong Ma, Congmin Wang, Lei Wang, Xing Zhou, Miao Tian, Qiangqiang Zhang, Yue Zhang, Jiwen Li, Zhidong Liu, Yuqun Cai,[...]. Nat Neurosci 2013
192
20
20

Serotonin 3A receptor subtype as an early and protracted marker of cortical interneuron subpopulations.
Ksenija Vucurovic, Thierry Gallopin, Isabelle Ferezou, Armelle Rancillac, Pascal Chameau, Johannes A van Hooft, Hélène Geoffroy, Hannah Monyer, Jean Rossier, Tania Vitalis. Cereb Cortex 2010
109
20
20

Postmitotic Nkx2-1 controls the migration of telencephalic interneurons by direct repression of guidance receptors.
Sandrina Nóbrega-Pereira, Nicoletta Kessaris, Tonggong Du, Shioko Kimura, Stewart A Anderson, Oscar Marín. Neuron 2008
174
19
19

A subpopulation of dorsal lateral/caudal ganglionic eminence-derived neocortical interneurons expresses the transcription factor Sp8.
Tong Ma, Qiangqiang Zhang, Yuqun Cai, Yan You, John L R Rubenstein, Zhengang Yang. Cereb Cortex 2012
57
19
33

Sonic hedgehog signaling confers ventral telencephalic progenitors with distinct cortical interneuron fates.
Qing Xu, Lihua Guo, Holly Moore, Ronald R Waclaw, Kenneth Campbell, Stewart A Anderson. Neuron 2010
149
19
19

Clonal production and organization of inhibitory interneurons in the neocortex.
Keith N Brown, She Chen, Zhi Han, Chun-Hui Lu, Xin Tan, Xin-Jun Zhang, Liya Ding, Alejandro Lopez-Cruz, Dieter Saur, Stewart A Anderson,[...]. Science 2011
114
19
19

New insights into the classification and nomenclature of cortical GABAergic interneurons.
Javier DeFelipe, Pedro L López-Cruz, Ruth Benavides-Piccione, Concha Bielza, Pedro Larrañaga, Stewart Anderson, Andreas Burkhalter, Bruno Cauli, Alfonso Fairén, Dirk Feldmeyer,[...]. Nat Rev Neurosci 2013
504
19
19

Loss of COUP-TFI alters the balance between caudal ganglionic eminence- and medial ganglionic eminence-derived cortical interneurons and results in resistance to epilepsy.
Simona Lodato, Giulio Srubek Tomassy, Elvira De Leonibus, Yoryani G Uzcategui, Gennaro Andolfi, Maria Armentano, Audrey Touzot, Jose M Gaztelu, Paola Arlotta, Liset Menendez de la Prida,[...]. J Neurosci 2011
71
19
26

Satb1 is an activity-modulated transcription factor required for the terminal differentiation and connectivity of medial ganglionic eminence-derived cortical interneurons.
Jennie Close, Han Xu, Natalia De Marco García, Renata Batista-Brito, Elsa Rossignol, Bernardo Rudy, Gord Fishell. J Neurosci 2012
88
18
20

Lhx6 and Lhx8 coordinately induce neuronal expression of Shh that controls the generation of interneuron progenitors.
Pierre Flandin, Yangu Zhao, Daniel Vogt, Juhee Jeong, Jason Long, Gregory Potter, Heiner Westphal, John L R Rubenstein. Neuron 2011
102
18
18

Sorting of striatal and cortical interneurons regulated by semaphorin-neuropilin interactions.
O Marín, A Yaron, A Bagri, M Tessier-Lavigne, J L Rubenstein. Science 2001
312
17
17


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.

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