A citation-based method for searching scientific literature

Manuel Rocha, Noor Singh, Kamil Ahsan, Anastasia Beiriger, Victoria E Prince. Dev Dyn 2020
Times Cited: 18







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



Times Cited
  Times     Co-cited
Similarity


Stages of embryonic development of the zebrafish.
C B Kimmel, W W Ballard, S R Kimmel, B Ullmann, T F Schilling. Dev Dyn 1995
38

Evolution of vertebrates as viewed from the crest.
Stephen A Green, Marcos Simoes-Costa, Marianne E Bronner. Nature 2015
119
33

Establishing neural crest identity: a gene regulatory recipe.
Marcos Simões-Costa, Marianne E Bronner. Development 2015
308
27


Spatiotemporal structure of cell fate decisions in murine neural crest.
Ruslan Soldatov, Marketa Kaucka, Maria Eleni Kastriti, Julian Petersen, Tatiana Chontorotzea, Lukas Englmaier, Natalia Akkuratova, Yunshi Yang, Martin Häring, Viacheslav Dyachuk,[...]. Science 2019
134
27

Regulatory Logic Underlying Diversification of the Neural Crest.
Megan L Martik, Marianne E Bronner. Trends Genet 2017
77
22

A gene regulatory network orchestrates neural crest formation.
Tatjana Sauka-Spengler, Marianne Bronner-Fraser. Nat Rev Mol Cell Biol 2008
473
22

nacre encodes a zebrafish microphthalmia-related protein that regulates neural-crest-derived pigment cell fate.
J A Lister, C P Robertson, T Lepage, S L Johnson, D W Raible. Development 1999
522
22

Segregation and early dispersal of neural crest cells in the embryonic zebrafish.
D W Raible, A Wood, W Hodsdon, P D Henion, J A Weston, J S Eisen. Dev Dyn 1992
170
22

Disruption of the folate pathway in zebrafish causes developmental defects.
Marina S Lee, Jenna R Bonner, David J Bernard, Erica L Sanchez, Eric T Sause, R Reid Prentice, Shawn M Burgess, Lawrence C Brody. BMC Dev Biol 2012
45
16

Zebrafish Craniofacial Development: A Window into Early Patterning.
Lindsey Mork, Gage Crump. Curr Top Dev Biol 2015
59
16

Development and evolution of the neural crest: an overview.
Marianne E Bronner, Nicole M LeDouarin. Dev Biol 2012
192
16

Hedgehog signaling is required for cranial neural crest morphogenesis and chondrogenesis at the midline in the zebrafish skull.
Naoyuki Wada, Yashar Javidan, Sarah Nelson, Thomas J Carney, Robert N Kelsh, Thomas F Schilling. Development 2005
213
16

Neurocristopathies: New insights 150 years after the neural crest discovery.
Guillermo A Vega-Lopez, Santiago Cerrizuela, Celeste Tribulo, Manuel J Aybar. Dev Biol 2018
61
16

Zebrafish models of orofacial clefts.
Kaylia M Duncan, Kusumika Mukherjee, Robert A Cornell, Eric C Liao. Dev Dyn 2017
27
16


Transcriptome analysis reveals novel players in the cranial neural crest gene regulatory network.
Marcos Simões-Costa, Joanne Tan-Cabugao, Igor Antoshechkin, Tatjana Sauka-Spengler, Marianne E Bronner. Genome Res 2014
73
16

Specification of the neural crest occurs during gastrulation and requires Pax7.
Martín L Basch, Marianne Bronner-Fraser, Martín I García-Castro. Nature 2006
248
16


Zebrafish foxd3 is selectively required for neural crest specification, migration and survival.
Rodney A Stewart, Brigitte L Arduini, Stephane Berghmans, Rani E George, John P Kanki, Paul D Henion, A Thomas Look. Dev Biol 2006
127
16


Specifying neural crest cells: From chromatin to morphogens and factors in between.
Crystal D Rogers, Shuyi Nie. Wiley Interdiscip Rev Dev Biol 2018
14
21

Reiterated Wnt signaling during zebrafish neural crest development.
Jessica L Lewis, Jennifer Bonner, Melinda Modrell, Jared W Ragland, Randall T Moon, Richard I Dorsky, David W Raible. Development 2004
199
16

Premigratory and migratory neural crest cells are multipotent in vivo.
Arianna Baggiolini, Sandra Varum, José María Mateos, Damiano Bettosini, Nessy John, Mario Bonalli, Urs Ziegler, Leda Dimou, Hans Clevers, Reinhard Furrer,[...]. Cell Stem Cell 2015
110
16

Assembling neural crest regulatory circuits into a gene regulatory network.
Paola Betancur, Marianne Bronner-Fraser, Tatjana Sauka-Spengler. Annu Rev Cell Dev Biol 2010
200
16


Reprogramming of avian neural crest axial identity and cell fate.
Marcos Simoes-Costa, Marianne E Bronner. Science 2016
75
16

A direct role for Sox10 in specification of neural crest-derived sensory neurons.
Thomas J Carney, Kirsten A Dutton, Emma Greenhill, Mariana Delfino-Machín, Pascale Dufourcq, Patrick Blader, Robert N Kelsh. Development 2006
193
16

A systems biology approach uncovers the core gene regulatory network governing iridophore fate choice from the neural crest.
Kleio Petratou, Tatiana Subkhankulova, James A Lister, Andrea Rocco, Hartmut Schwetlick, Robert N Kelsh. PLoS Genet 2018
16
18



Skeletogenic fate of zebrafish cranial and trunk neural crest.
Erika Kague, Michael Gallagher, Sally Burke, Michael Parsons, Tamara Franz-Odendaal, Shannon Fisher. PLoS One 2012
114
16

Distinct requirements for wnt9a and irf6 in extension and integration mechanisms during zebrafish palate morphogenesis.
Max Dougherty, George Kamel, Michael Grimaldi, Lisa Gfrerer, Valeriy Shubinets, Renee Ethier, Graham Hickey, Robert A Cornell, Eric C Liao. Development 2013
54
11

Cleft lip and palate: understanding genetic and environmental influences.
Michael J Dixon, Mary L Marazita, Terri H Beaty, Jeffrey C Murray. Nat Rev Genet 2011
894
11

Roles of Wnt pathway genes wls, wnt9a, wnt5b, frzb and gpc4 in regulating convergent-extension during zebrafish palate morphogenesis.
Lucie Rochard, Stefanie D Monica, Irving T C Ling, Yawei Kong, Sara Roberson, Richard Harland, Marnie Halpern, Eric C Liao. Development 2016
20
11

Animal models of gene-alcohol interactions.
Charles Benjamin Lovely. Birth Defects Res 2020
3
66


Craniofacial genetics: Where have we been and where are we going?
Seth M Weinberg, Robert Cornell, Elizabeth J Leslie. PLoS Genet 2018
13
15

The diverse neural crest: from embryology to human pathology.
Heather C Etchevers, Elisabeth Dupin, Nicole M Le Douarin. Development 2019
42
11

Genetic lineage labeling in zebrafish uncovers novel neural crest contributions to the head, including gill pillar cells.
Alessandro Mongera, Ajeet P Singh, Mitchell P Levesque, Yi-Yen Chen, Peter Konstantinidis, Christiane Nüsslein-Volhard. Development 2013
65
11

lockjaw encodes a zebrafish tfap2a required for early neural crest development.
Robert D Knight, Sreelaja Nair, Sarah S Nelson, Ali Afshar, Yashar Javidan, Robert Geisler, Gerd-Joerg Rauch, Thomas F Schilling. Development 2003
152
11

Chemical-induced craniofacial anomalies caused by disruption of neural crest cell development in a zebrafish model.
Shujie Liu, Rika Narumi, Naohiro Ikeda, Osamu Morita, Junichi Tasaki. Dev Dyn 2020
5
40

Prenatal retinoic acid exposure reveals candidate genes for craniofacial disorders.
Marie Berenguer, Muriel Darnaudery, Stéphane Claverol, Marc Bonneu, Didier Lacombe, Caroline Rooryck. Sci Rep 2018
6
33

Valproic acid monotherapy in pregnancy and major congenital malformations.
Janneke Jentink, Maria A Loane, Helen Dolk, Ingeborg Barisic, Ester Garne, Joan K Morris, Lolkje T W de Jong-van den Berg. N Engl J Med 2010
272
11

Contact inhibition of locomotion in vivo controls neural crest directional migration.
Carlos Carmona-Fontaine, Helen K Matthews, Sei Kuriyama, Mauricio Moreno, Graham A Dunn, Maddy Parsons, Claudio D Stern, Roberto Mayor. Nature 2008
385
11


Mechanisms of Neural Crest Migration.
András Szabó, Roberto Mayor. Annu Rev Genet 2018
56
11


A genome-wide assessment of the ancestral neural crest gene regulatory network.
Dorit Hockman, Vanessa Chong-Morrison, Stephen A Green, Daria Gavriouchkina, Ivan Candido-Ferreira, Irving T C Ling, Ruth M Williams, Chris T Amemiya, Jeramiah J Smith, Marianne E Bronner,[...]. Nat Commun 2019
23
11

Phylogenetic and evolutionary relationships and developmental expression patterns of the zebrafish twist gene family.
Gare Hoon Yeo, Felicia S H Cheah, Christoph Winkler, Ethylin Wang Jabs, Byrappa Venkatesh, Samuel S Chong. Dev Genes Evol 2009
10
20


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.