A citation-based method for searching scientific literature

Florencia Marcucci, Veronica Murcia-Belmonte, Qing Wang, Yaiza Coca, Susana Ferreiro-Galve, Takaaki Kuwajima, Sania Khalid, M Elizabeth Ross, Carol Mason, Eloisa Herrera. Cell Rep 2016
Times Cited: 47







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



Times Cited
  Times     Co-cited
Similarity



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
768
34

Zic2 patterns binocular vision by specifying the uncrossed retinal projection.
Eloísa Herrera, Lucia Brown, Jun Aruga, Rivka A Rachel, Gül Dolen, Katsuhiko Mikoshiba, Stephen Brown, Carol A Mason. Cell 2003
187
34

The ciliary marginal zone (CMZ) in development and regeneration of the vertebrate eye.
Andy J Fischer, Jennifer L Bosse, Heithem M El-Hodiri. Exp Eye Res 2013
43
30


Generation of a ciliary margin-like stem cell niche from self-organizing human retinal tissue.
Atsushi Kuwahara, Chikafumi Ozone, Tokushige Nakano, Koichi Saito, Mototsugu Eiraku, Yoshiki Sasai. Nat Commun 2015
162
25


Identification of neural progenitors in the adult mammalian eye.
I Ahmad, L Tang, H Pham. Biochem Biophys Res Commun 2000
330
23


Ephrin-B2 and EphB1 mediate retinal axon divergence at the optic chiasm.
Scott E Williams, Fanny Mann, Lynda Erskine, Takeshi Sakurai, Shiniu Wei, Derrick J Rossi, Nicholas W Gale, Christine E Holt, Carol A Mason, Mark Henkemeyer. Neuron 2003
243
23

SoxC Transcription Factors Promote Contralateral Retinal Ganglion Cell Differentiation and Axon Guidance in the Mouse Visual System.
Takaaki Kuwajima, Célia A Soares, Austen A Sitko, Véronique Lefebvre, Carol Mason. Neuron 2017
42
26

Zic2 promotes axonal divergence at the optic chiasm midline by EphB1-dependent and -independent mechanisms.
Cristina García-Frigola, Maria Isabel Carreres, Celia Vegar, Carol Mason, Eloísa Herrera. Development 2008
76
21

Molecular characterization of retinal stem cells and their niches in adult zebrafish.
Pamela A Raymond, Linda K Barthel, Rebecca L Bernardos, John J Perkowski. BMC Dev Biol 2006
346
21


The ciliary marginal zone of the zebrafish retina: clonal and time-lapse analysis of a continuously growing tissue.
Yinan Wan, Alexandra D Almeida, Steffen Rulands, Naima Chalour, Leila Muresan, Yunmin Wu, Benjamin D Simons, Jie He, William A Harris. Development 2016
32
28

Shh/Boc signaling is required for sustained generation of ipsilateral projecting ganglion cells in the mouse retina.
Luisa Sánchez-Arrones, Francisco Nieto-Lopez, Cristina Sánchez-Camacho, M Isabel Carreres, Eloisa Herrera, Ami Okada, Paola Bovolenta. J Neurosci 2013
32
28

Optic chiasm presentation of Semaphorin6D in the context of Plexin-A1 and Nr-CAM promotes retinal axon midline crossing.
Takaaki Kuwajima, Yutaka Yoshida, Noriko Takegahara, Timothy J Petros, Atsushi Kumanogoh, Thomas M Jessell, Takeshi Sakurai, Carol Mason. Neuron 2012
76
19


Single-Cell RNA-Seq Analysis of Retinal Development Identifies NFI Factors as Regulating Mitotic Exit and Late-Born Cell Specification.
Brian S Clark, Genevieve L Stein-O'Brien, Fion Shiau, Gabrielle H Cannon, Emily Davis-Marcisak, Thomas Sherman, Clayton P Santiago, Thanh V Hoang, Fatemeh Rajaii, Rebecca E James-Esposito,[...]. Neuron 2019
150
19

Ciliary margin transdifferentiation from neural retina is controlled by canonical Wnt signaling.
Hong Liu, Shunbin Xu, Yaping Wang, Chantal Mazerolle, Sherry Thurig, Brenda L K Coles, Jian-Ching Ren, Makoto Mark Taketo, Derek van der Kooy, Valerie A Wallace. Dev Biol 2007
105
17

The genetic sequence of retinal development in the ciliary margin of the Xenopus eye.
M Perron, S Kanekar, M L Vetter, W A Harris. Dev Biol 1998
254
17

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
680
17

Cells previously identified as retinal stem cells are pigmented ciliary epithelial cells.
Samantha A Cicero, Dianna Johnson, Steve Reyntjens, Sharon Frase, Samuel Connell, Lionel M L Chow, Suzanne J Baker, Brian P Sorrentino, Michael A Dyer. Proc Natl Acad Sci U S A 2009
156
17

The adult retinal stem cell is a rare cell in the ciliary epithelium whose progeny can differentiate into photoreceptors.
Brian G Ballios, Laura Clarke, Brenda L K Coles, Molly S Shoichet, Derek Van Der Kooy. Biol Open 2012
42
19

The growth of the retina in Xenopus laevis: an autoradiographic study.
K Straznicky, R M Gaze. J Embryol Exp Morphol 1971
357
17

Delayed neurogenesis leads to altered specification of ventrotemporal retinal ganglion cells in albino mice.
Punita Bhansali, Ilana Rayport, Alexandra Rebsam, Carol Mason. Neural Dev 2014
32
25

Molecular recapitulation: the growth of the vertebrate retina.
W A Harris, M Perron. Int J Dev Biol 1998
79
17

A comparative study of neurogenesis in the retinal ciliary marginal zone of homeothermic vertebrates.
R Kubota, J N Hokoc, A Moshiri, C McGuire, T A Reh. Brain Res Dev Brain Res 2002
101
17


Facile isolation and the characterization of human retinal stem cells.
Brenda L K Coles, Brigitte Angénieux, Tomoyuki Inoue, Katia Del Rio-Tsonis, Jason R Spence, Roderick R McInnes, Yvan Arsenijevic, Derek van der Kooy. Proc Natl Acad Sci U S A 2004
287
17

Adult ciliary epithelial cells, previously identified as retinal stem cells with potential for retinal repair, fail to differentiate into new rod photoreceptors.
Sara Gualdoni, Michael Baron, Jörn Lakowski, Sarah Decembrini, Alexander J Smith, Rachael A Pearson, Robin R Ali, Jane C Sowden. Stem Cells 2010
83
17


BMP signaling is required for development of the ciliary body.
Shulei Zhao, Qin Chen, Fang-Cheng Hung, Paul A Overbeek. Development 2002
112
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
55
14

Retinal axon growth at the optic chiasm: to cross or not to cross.
Timothy J Petros, Alexandra Rebsam, Carol A Mason. Annu Rev Neurosci 2008
119
14

Retinal stem cells and regeneration.
Ala Moshiri, Jennie Close, Thomas A Reh. Int J Dev Biol 2004
123
14

Fate restriction and multipotency in retinal stem cells.
Lázaro Centanin, Burkhard Hoeckendorf, Joachim Wittbrodt. Cell Stem Cell 2011
61
14

Math5 is required for retinal ganglion cell and optic nerve formation.
N L Brown, S Patel, J Brzezinski, T Glaser. Development 2001
366
14

Transcription factor Foxd1 is required for the specification of the temporal retina in mammals.
Maria Isabel Carreres, Augusto Escalante, Blanca Murillo, Geraud Chauvin, Patricia Gaspar, Celia Vegar, Eloisa Herrera. J Neurosci 2011
43
16


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
447
14

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
249
14

Cell fate determination in the vertebrate retina.
Erin A Bassett, Valerie A Wallace. Trends Neurosci 2012
175
14

Vertebrate neural cell-fate determination: lessons from the retina.
F J Livesey, C L Cepko. Nat Rev Neurosci 2001
706
14

Single cell transcriptome profiling of retinal ganglion cells identifies cellular subtypes.
Bruce A Rheaume, Amyeo Jereen, Mohan Bolisetty, Muhammad S Sajid, Yue Yang, Kathleen Renna, Lili Sun, Paul Robson, Ephraim F Trakhtenberg. Nat Commun 2018
173
14

The peripheral eye: A neurogenic area with potential to treat retinal pathologies?
Marta Fernández-Nogales, Verónica Murcia-Belmonte, Holly Yu Chen, Eloísa Herrera. Prog Retin Eye Res 2019
12
58

Single-cell transcriptional logic of cell-fate specification and axon guidance in early-born retinal neurons.
Quentin Lo Giudice, Marion Leleu, Gioele La Manno, Pierre J Fabre. Development 2019
23
30


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.