A citation-based method for searching scientific literature

Ashutosh P Jadhav, Seo-Hee Cho, Constance L Cepko. Proc Natl Acad Sci U S A 2006
Times Cited: 101







List of co-cited articles
1333 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Notch 1 inhibits photoreceptor production in the developing mammalian retina.
Ashutosh P Jadhav, Heather A Mason, Constance L Cepko. Development 2006
159
47

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
381
45

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
35




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
665
25

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
207
22

The transcriptome of retinal Müller glial cells.
Karin Roesch, Ashutosh P Jadhav, Jeffrey M Trimarchi, Michael B Stadler, Botond Roska, Ben B Sun, Constance L Cepko. J Comp Neurol 2008
248
21

Genomic analysis of mouse retinal development.
Seth Blackshaw, Sanjiv Harpavat, Jeff Trimarchi, Li Cai, Haiyan Huang, Winston P Kuo, Griffin Weber, Kyungjoon Lee, Rebecca E Fraioli, Seo-Hee Cho,[...]. PLoS Biol 2004
440
20

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
750
19

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
365
19

Math5 is required for retinal ganglion cell and optic nerve formation.
N L Brown, S Patel, J Brzezinski, T Glaser. Development 2001
365
19

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
402
18


Rbpj cell autonomous regulation of retinal ganglion cell and cone photoreceptor fates in the mouse retina.
Amy N Riesenberg, Zhenyi Liu, Raphael Kopan, Nadean L Brown. J Neurosci 2009
74
24

Potential for neural regeneration after neurotoxic injury in the adult mammalian retina.
Sotaro Ooto, Tadamichi Akagi, Ryoichiro Kageyama, Joe Akita, Michiko Mandai, Yoshihito Honda, Masayo Takahashi. Proc Natl Acad Sci U S A 2004
321
17


Maintenance of neuroepithelial progenitor cells by Delta-Notch signalling in the embryonic chick retina.
D Henrique, E Hirsinger, J Adam, I Le Roux, O Pourquié, D Ish-Horowicz, J Lewis. Curr Biol 1997
346
17

Retinal ganglion cell-derived sonic hedgehog locally controls proliferation and the timing of RGC development in the embryonic mouse retina.
Yaping Wang, Gabriel D Dakubo, Sherry Thurig, Chantal J Mazerolle, Valerie A Wallace. Development 2005
155
17

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
265
17


Mammalian hairy and Enhancer of split homolog 1 regulates differentiation of retinal neurons and is essential for eye morphogenesis.
K Tomita, M Ishibashi, K Nakahara, S L Ang, S Nakanishi, F Guillemot, R Kageyama. Neuron 1996
279
16



Late-stage neuronal progenitors in the retina are radial Müller glia that function as retinal stem cells.
Rebecca L Bernardos, Linda K Barthel, Jason R Meyers, Pamela A Raymond. J Neurosci 2007
395
16

Notch1 is required in newly postmitotic cells to inhibit the rod photoreceptor fate.
Karolina Mizeracka, Christina R DeMaso, Constance L Cepko. Development 2013
41
39

NeuroD regulates multiple functions in the developing neural retina in rodent.
E M Morrow, T Furukawa, J E Lee, C L Cepko. Development 1999
279
15


Retinal stem cells in the adult mammalian eye.
V Tropepe, B L Coles, B J Chiasson, D J Horsford, A J Elia, R R McInnes, D van der Kooy. Science 2000
759
15

Neural stem cell properties of Müller glia in the mammalian retina: regulation by Notch and Wnt signaling.
Ani V Das, Kavita B Mallya, Xing Zhao, Faraz Ahmad, Sumitra Bhattacharya, Wallace B Thoreson, Ganapati V Hegde, Iqbal Ahmad. Dev Biol 2006
210
15

Xotch inhibits cell differentiation in the Xenopus retina.
R I Dorsky, D H Rapaport, W A Harris. Neuron 1995
248
15

Wnt signaling promotes regeneration in the retina of adult mammals.
Fumitaka Osakada, Sotaro Ooto, Tadamichi Akagi, Michiko Mandai, Akinori Akaike, Masayo Takahashi. J Neurosci 2007
230
15

Progenitor cell proliferation in the retina is dependent on Notch-independent Sonic hedgehog/Hes1 activity.
Dana S Wall, Alan J Mears, Brian McNeill, Chantal Mazerolle, Sherry Thurig, Yaping Wang, Ryoichiro Kageyama, Valerie A Wallace. J Cell Biol 2009
142
15

Acheate-scute like 1 (Ascl1) is required for normal delta-like (Dll) gene expression and notch signaling during retinal development.
Branden R Nelson, Byron H Hartman, Catherine A Ray, Toshinori Hayashi, Olivia Bermingham-McDonogh, Thomas A Reh. Dev Dyn 2009
55
27

Genome-wide analysis of Müller glial differentiation reveals a requirement for Notch signaling in postmitotic cells to maintain the glial fate.
Branden R Nelson, Yumi Ueki, Sara Reardon, Mike O Karl, Sean Georgi, Byron H Hartman, Deepak A Lamba, Thomas A Reh. PLoS One 2011
79
18

Ptf1a determines horizontal and amacrine cell fates during mouse retinal development.
Yoshio Fujitani, Shuko Fujitani, Huijun Luo, Feng Qiu, Jared Burlison, Qiaoming Long, Yoshiya Kawaguchi, Helena Edlund, Raymond J MacDonald, Takahisa Furukawa,[...]. Development 2006
166
14

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
249
14

Individual retinal progenitor cells display extensive heterogeneity of gene expression.
Jeffrey M Trimarchi, Michael B Stadler, Constance L Cepko. PLoS One 2008
121
14

Development and neurogenic potential of Müller glial cells in the vertebrate retina.
Ashutosh P Jadhav, Karin Roesch, Constance L Cepko. Prog Retin Eye Res 2009
139
14

Multiple requirements for Hes 1 during early eye formation.
Hae Young Lee, Emily Wroblewski, Gary T Philips, Carrie N Stair, Kevin Conley, Meredith Reedy, Grant S Mastick, Nadean L Brown. Dev Biol 2005
84
15

SOX2 is a dose-dependent regulator of retinal neural progenitor competence.
Olena V Taranova, Scott T Magness, B Matthew Fagan, Yongqin Wu, Natalie Surzenko, Scott R Hutton, Larysa H Pevny. Genes Dev 2006
379
13

Roles of the bHLH gene Hes1 in retinal morphogenesis.
Kenji Takatsuka, Jun Hatakeyama, Yasumasa Bessho, Ryoichiro Kageyama. Brain Res 2004
42
30


Transient inactivation of Notch signaling synchronizes differentiation of neural progenitor cells.
Branden R Nelson, Byron H Hartman, Sean A Georgi, Michael S Lan, Thomas A Reh. Dev Biol 2007
103
13

Efficient generation of retinal progenitor cells from human embryonic stem cells.
Deepak A Lamba, Mike O Karl, Carol B Ware, Thomas A Reh. Proc Natl Acad Sci U S A 2006
451
13

Stimulation of neural regeneration in the mouse retina.
Mike O Karl, Susan Hayes, Branden R Nelson, Kristine Tan, Brian Buckingham, Thomas A Reh. Proc Natl Acad Sci U S A 2008
236
13


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
410
12

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
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.