A citation-based method for searching scientific literature

Tadamichi Akagi, Tomoyuki Inoue, Goichi Miyoshi, Yasumasa Bessho, Masayo Takahashi, Jacqueline E Lee, François Guillemot, Ryoichiro Kageyama. J Biol Chem 2004
Times Cited: 105







List of co-cited articles
1121 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Math3 and NeuroD regulate amacrine cell fate specification in the retina.
Tomoyuki Inoue, Masato Hojo, Yasumasa Bessho, Yasuo Tano, Jacqueline E Lee, Ryoichiro Kageyama. Development 2002
208
37


NeuroD regulates multiple functions in the developing neural retina in rodent.
E M Morrow, T Furukawa, J E Lee, C L Cepko. Development 1999
278
30


Pax6 is required for the multipotent state of retinal progenitor cells.
T Marquardt, R Ashery-Padan, N Andrejewski, R Scardigli, F Guillemot, P Gruss. Cell 2001
662
28

Requirement for math5 in the development of retinal ganglion cells.
S W Wang, B S Kim, K Ding, H Wang, D Sun, R L Johnson, W H Klein, L Gan. Genes Dev 2001
363
27


Math5 is required for retinal ganglion cell and optic nerve formation.
N L Brown, S Patel, J Brzezinski, T Glaser. Development 2001
363
27

Otx2 homeobox gene controls retinal photoreceptor cell fate and pineal gland development.
Akihiro Nishida, Akiko Furukawa, Chieko Koike, Yasuo Tano, Shinichi Aizawa, Isao Matsuo, Takahisa Furukawa. Nat Neurosci 2003
400
27

Roles of homeobox and bHLH genes in specification of a retinal cell type.
J Hatakeyama, K Tomita, T Inoue, R Kageyama. Development 2001
186
25

Math5 determines the competence state of retinal ganglion cell progenitors.
Zhiyong Yang, Kan Ding, Ling Pan, Min Deng, Lin Gan. Dev Biol 2003
198
24

Math5 encodes a murine basic helix-loop-helix transcription factor expressed during early stages of retinal neurogenesis.
N L Brown, S Kanekar, M L Vetter, P K Tucker, D L Gemza, T Glaser. Development 1998
248
23

Proneural genes and the specification of neural cell types.
Nicolas Bertrand, Diogo S Castro, François Guillemot. Nat Rev Neurosci 2002
23

Ocular retardation mouse caused by Chx10 homeobox null allele: impaired retinal progenitor proliferation and bipolar cell differentiation.
M Burmeister, J Novak, M Y Liang, S Basu, L Ploder, N L Hawes, D Vidgen, F Hoover, D Goldman, V I Kalnins,[...]. Nat Genet 1996
407
22


Foxn4 controls the genesis of amacrine and horizontal cells by retinal progenitors.
Shengguo Li, Zeqian Mo, Xuejie Yang, Sandy M Price, Michael M Shen, Mengqing Xiang. Neuron 2004
177
20

Timing and topography of cell genesis in the rat retina.
David H Rapaport, Lily L Wong, Eric D Wood, Douglas Yasumura, Matthew M LaVail. J Comp Neurol 2004
263
20

Retinal cell fate determination and bHLH factors.
Jun Hatakeyama, Ryoichiro Kageyama. Semin Cell Dev Biol 2004
192
19

Neurog2 controls the leading edge of neurogenesis in the mammalian retina.
Robert B Hufnagel, Tien T Le, Ashley L Riesenberg, Nadean L Brown. Dev Biol 2010
67
28

Mash1 promotes neuronal differentiation in the retina.
K Tomita, S Nakanishi, F Guillemot, R Kageyama. Genes Cells 1996
121
18

BETA2/NeuroD1 null mice: a new model for transcription factor-dependent photoreceptor degeneration.
Mark E Pennesi, Jang-Hyeon Cho, Zhuo Yang, Schonmei H Wu, Jian Zhang, Samuel M Wu, Ming-Jer Tsai. J Neurosci 2003
91
19

A role for neural determination genes in specifying the dorsoventral identity of telencephalic neurons.
C Fode, Q Ma, S Casarosa, S L Ang, D J Anderson, F Guillemot. Genes Dev 2000
462
18



The role of basic helix-loop-helix genes in vertebrate retinogenesis.
M L Vetter, N L Brown. Semin Cell Dev Biol 2001
96
17

Divergent functions of the proneural genes Mash1 and Ngn2 in the specification of neuronal subtype identity.
Carlos M Parras, Carol Schuurmans, Raffaella Scardigli, Jaesang Kim, David J Anderson, François Guillemot. Genes Dev 2002
267
17

Nrl is required for rod photoreceptor development.
A J Mears, M Kondo, P K Swain, Y Takada, R A Bush, T L Saunders, P A Sieving, A Swaroop. Nat Genet 2001
655
16


Prox1 function controls progenitor cell proliferation and horizontal cell genesis in the mammalian retina.
Michael A Dyer, Frederick J Livesey, Constance L Cepko, Guillermo Oliver. Nat Genet 2003
294
16

Individual retinal progenitor cells display extensive heterogeneity of gene expression.
Jeffrey M Trimarchi, Michael B Stadler, Constance L Cepko. PLoS One 2008
119
16

NeuroD1 regulates expression of thyroid hormone receptor 2 and cone opsins in the developing mouse retina.
Hong Liu, Paige Etter, Susan Hayes, Iwan Jones, Branden Nelson, Byron Hartman, Douglas Forrest, Thomas A Reh. J Neurosci 2008
48
33

Crx, a novel Otx-like paired-homeodomain protein, binds to and transactivates photoreceptor cell-specific genes.
S Chen, Q L Wang, Z Nie, H Sun, G Lennon, N G Copeland, D J Gilbert, N A Jenkins, D J Zack. Neuron 1997
536
15

Retinopathy and attenuated circadian entrainment in Crx-deficient mice.
T Furukawa, E M Morrow, T Li, F C Davis, C L Cepko. Nat Genet 1999
406
15

rax, Hes1, and notch1 promote the formation of Müller glia by postnatal retinal progenitor cells.
T Furukawa, S Mukherjee, Z Z Bao, E M Morrow, C L Cepko. Neuron 2000
379
15


Cell fate determination in the vertebrate retina.
C L Cepko, C P Austin, X Yang, M Alexiades, D Ezzeddine. Proc Natl Acad Sci U S A 1996
747
14

A gene network downstream of transcription factor Math5 regulates retinal progenitor cell competence and ganglion cell fate.
Xiuqian Mu, Xueyao Fu, Hongxia Sun, Phillip D Beremand, Terry L Thomas, William H Klein. Dev Biol 2005
101
14



Posttranslational mechanisms control the timing of bHLH function and regulate retinal cell fate.
Kathryn B Moore, Meredith L Schneider, Monica L Vetter. Neuron 2002
86
15

A thyroid hormone receptor that is required for the development of green cone photoreceptors.
L Ng, J B Hurley, B Dierks, M Srinivas, C Saltó, B Vennström, T A Reh, D Forrest. Nat Genet 2001
381
13

Glial cell fate specification modulated by the bHLH gene Hes5 in mouse retina.
M Hojo, T Ohtsuka, N Hashimoto, G Gradwohl, F Guillemot, R Kageyama. Development 2000
208
13

Requirement for Bhlhb5 in the specification of amacrine and cone bipolar subtypes in mouse retina.
Liang Feng, Xiaoling Xie, Pushkar S Joshi, Zhiyong Yang, Koji Shibasaki, Robert L Chow, Lin Gan. Development 2006
102
13

Math5 is required for both early retinal neuron differentiation and cell cycle progression.
Tien T Le, Emily Wroblewski, Sima Patel, Amy N Riesenberg, Nadean L Brown. Dev Biol 2006
78
16

Functional roles of Otx2 transcription factor in postnatal mouse retinal development.
Chieko Koike, Akihiro Nishida, Shinji Ueno, Hiromitsu Saito, Rikako Sanuki, Shigeru Sato, Akiko Furukawa, Shinichi Aizawa, Isao Matsuo, Noboru Suzuki,[...]. Mol Cell Biol 2007
126
13

Notch1 functions to suppress cone-photoreceptor fate specification in the developing mouse retina.
Orly Yaron, Chen Farhy, Till Marquardt, Meredithe Applebury, Ruth Ashery-Padan. Development 2006
130
13

Notch 1 inhibits photoreceptor production in the developing mammalian retina.
Ashutosh P Jadhav, Heather A Mason, Constance L Cepko. Development 2006
158
13

Ascl1 expression defines a subpopulation of lineage-restricted progenitors in the mammalian retina.
Joseph A Brzezinski, Euiseok J Kim, Jane E Johnson, Thomas A Reh. Development 2011
78
16

Generating neuronal diversity in the retina: one for nearly all.
Till Marquardt, Peter Gruss. Trends Neurosci 2002
272
12



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.