A citation-based method for searching scientific literature


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



Times Cited
  Times     Co-cited
Similarity


POU domain factor Brn-3b is required for the development of a large set of retinal ganglion cells.
L Gan, M Xiang, L Zhou, D S Wagner, W H Klein, J Nathans. Proc Natl Acad Sci U S A 1996
263
56

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
360
46

Math5 determines the competence state of retinal ganglion cell progenitors.
Zhiyong Yang, Kan Ding, Ling Pan, Min Deng, Lin Gan. Dev Biol 2003
197
45

Math5 is required for retinal ganglion cell and optic nerve formation.
N L Brown, S Patel, J Brzezinski, T Glaser. Development 2001
363
43


Role of transcription factors Brn-3.1 and Brn-3.2 in auditory and visual system development.
L Erkman, R J McEvilly, L Luo, A K Ryan, F Hooshmand, S M O'Connell, E M Keithley, D H Rapaport, A F Ryan, M G Rosenfeld. Nature 1996
412
38

Discrete gene sets depend on POU domain transcription factor Brn3b/Brn-3.2/POU4f2 for their expression in the mouse embryonic retina.
Xiuqian Mu, Phillip D Beremand, Sheng Zhao, Rashmi Pershad, Hongxia Sun, Ann Scarpa, Shuguang Liang, Terry L Thomas, William H Klein. Development 2004
98
37

Gene regulation logic in retinal ganglion cell development: Isl1 defines a critical branch distinct from but overlapping with Pou4f2.
Xiuqian Mu, Xueyao Fu, Phillip D Beremand, Terry L Thomas, William H Klein. Proc Natl Acad Sci U S A 2008
103
37

ISL1 and BRN3B co-regulate the differentiation of murine retinal ganglion cells.
Ling Pan, Min Deng, Xiaoling Xie, Lin Gan. Development 2008
127
37

A POU domain transcription factor-dependent program regulates axon pathfinding in the vertebrate visual system.
L Erkman, P A Yates, T McLaughlin, R J McEvilly, T Whisenhunt, S M O'Connell, A I Krones, M A Kirby, D H Rapaport, J R Bermingham,[...]. Neuron 2000
129
34

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
33




Brn3b/Brn3c double knockout mice reveal an unsuspected role for Brn3c in retinal ganglion cell axon outgrowth.
Steven W Wang, Xiuqian Mu, William J Bowers, Dong-Seob Kim, Daniel J Plas, Michael C Crair, Howard J Federoff, Lin Gan, William H Klein. Development 2002
106
28





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

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
660
22

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
28


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
19

MATH5 controls the acquisition of multiple retinal cell fates.
Liang Feng, Zheng-hua Xie, Qian Ding, Xiaoling Xie, Richard T Libby, Lin Gan. Mol Brain 2010
59
32

Brn-3b: a POU domain gene expressed in a subset of retinal ganglion cells.
M Xiang, L Zhou, Y W Peng, R L Eddy, T B Shows, J Nathans. Neuron 1993
187
18

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
17

Ganglion cells are required for normal progenitor- cell proliferation but not cell-fate determination or patterning in the developing mouse retina.
Xiuqian Mu, Xueyao Fu, Hongxia Sun, Shuguang Liang, Hidetaka Maeda, Laura J Frishman, William H Klein. Curr Biol 2005
57
29


Eomesodermin, a target gene of Pou4f2, is required for retinal ganglion cell and optic nerve development in the mouse.
Chai-An Mao, Takae Kiyama, Ping Pan, Yasuhide Furuta, Anna-Katerina Hadjantonakis, William H Klein. Development 2008
57
29


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
15


All Brn3 genes can promote retinal ganglion cell differentiation in the chick.
W Liu, S L Khare, X Liang, M A Peters, X Liu, C L Cepko, M Xiang. Development 2000
125
15

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
14


Islet-1 controls the differentiation of retinal bipolar and cholinergic amacrine cells.
Yasser Elshatory, Drew Everhart, Min Deng, Xiaoling Xie, Robert B Barlow, Lin Gan. J Neurosci 2007
132
14

Expression of the LIM-homeodomain protein Isl1 in the developing and mature mouse retina.
Yasser Elshatory, Min Deng, Xiaoling Xie, Lin Gan. J Comp Neurol 2007
102
14

Two transcription factors, Pou4f2 and Isl1, are sufficient to specify the retinal ganglion cell fate.
Fuguo Wu, Tadeusz J Kaczynski, Santhosh Sethuramanujam, Renzhong Li, Varsha Jain, Malcolm Slaughter, Xiuqian Mu. Proc Natl Acad Sci U S A 2015
53
26

Retinal ganglion cell genesis requires lakritz, a Zebrafish atonal Homolog.
J N Kay, K C Finger-Baier, T Roeser, W Staub, H Baier. Neuron 2001
294
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

Brn3a-expressing retinal ganglion cells project specifically to thalamocortical and collicular visual pathways.
Lely A Quina, Winnie Pak, Jason Lanier, Premilla Banwait, Kevin Gratwick, Ying Liu, Tomoko Velasquez, Dennis D M O'Leary, Martyn Goulding, Eric E Turner. J Neurosci 2005
127
12

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
165
12


Near complete loss of retinal ganglion cells in the math5/brn3b double knockout elicits severe reductions of other cell types during retinal development.
Ala Moshiri, Ernesto Gonzalez, Kunifumi Tagawa, Hidetaka Maeda, Minhua Wang, Laura J Frishman, Steven W Wang. Dev Biol 2008
58
20


Transcription factors SOX4 and SOX11 function redundantly to regulate the development of mouse retinal ganglion cells.
Ying Jiang, Qian Ding, Xiaoling Xie, Richard T Libby, Veronique Lefebvre, Lin Gan. J Biol Chem 2013
70
17

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
11

GDF11 controls the timing of progenitor cell competence in developing retina.
Joon Kim, Hsiao-Huei Wu, Arthur D Lander, Karen M Lyons, Martin M Matzuk, Anne L Calof. Science 2005
164
11


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.