Literature DB >> 19084075

Building an asymmetric brain: development of the zebrafish epithalamus.

Corey D Snelson1, Joshua T Gamse.   

Abstract

The human brain exhibits notable asymmetries. Little is known about these symmetry deviations; however scientists are beginning to understand them by employing the lateralized zebrafish epithalamus as a model. The zebrafish epithalamus consists of the pineal and parapineal organs and paired habenular nuclei located bilateral to the pineal complex. While zebrafish pineal and parapineal organs arise from a common population of cells, parapineal cells undergo a separate program that allows them to migrate left of the pineal anlage. Studying the processes that lead to brain laterality in zebrafish will allow a better understanding of how human brain laterality is established.

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Mesh:

Year:  2008        PMID: 19084075      PMCID: PMC2729063          DOI: 10.1016/j.semcdb.2008.11.008

Source DB:  PubMed          Journal:  Semin Cell Dev Biol        ISSN: 1084-9521            Impact factor:   7.727


  57 in total

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Authors:  M Kemali; V Guglielmotti; L Fiorino
Journal:  Brain Res       Date:  1990-05-28       Impact factor: 3.252

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Journal:  Nature       Date:  1993-07-29       Impact factor: 49.962

Review 5.  Organization of visual pathways in normal and visually deprived cats.

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Journal:  Physiol Rev       Date:  1982-04       Impact factor: 37.312

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Review 7.  Zebrafish: genetic tools for studying vertebrate development.

Authors:  W Driever; D Stemple; A Schier; L Solnica-Krezel
Journal:  Trends Genet       Date:  1994-05       Impact factor: 11.639

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Authors:  G R Christoph; R J Leonzio; K S Wilcox
Journal:  J Neurosci       Date:  1986-03       Impact factor: 6.167

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Authors:  K Woo; S E Fraser
Journal:  Development       Date:  1995-08       Impact factor: 6.868

10.  Origin and organization of the zebrafish fate map.

Authors:  C B Kimmel; R M Warga; T F Schilling
Journal:  Development       Date:  1990-04       Impact factor: 6.868
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  7 in total

Review 1.  Making a difference together: reciprocal interactions in C. elegans and zebrafish asymmetric neural development.

Authors:  Robert W Taylor; Yi-Wen Hsieh; Joshua T Gamse; Chiou-Fen Chuang
Journal:  Development       Date:  2010-03       Impact factor: 6.868

2.  The ancestral role of nodal signalling in breaking L/R symmetry in the vertebrate forebrain.

Authors:  Ronan Lagadec; Laurent Laguerre; Arnaud Menuet; Anis Amara; Claire Rocancourt; Pierre Péricard; Benoît G Godard; Maria Celina Rodicio; Isabel Rodriguez-Moldes; Hélène Mayeur; Quentin Rougemont; Sylvie Mazan; Agnès Boutet
Journal:  Nat Commun       Date:  2015-03-30       Impact factor: 14.919

Review 3.  Stochastic left-right neuronal asymmetry in Caenorhabditis elegans.

Authors:  Amel Alqadah; Yi-Wen Hsieh; Rui Xiong; Chiou-Fen Chuang
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2016-12-19       Impact factor: 6.237

4.  Hemispheric asymmetries: the comparative view.

Authors:  Sebastian Ocklenburg; Onur Güntürkün
Journal:  Front Psychol       Date:  2012-01-26

5.  Genetic ablation of the Bsx homeodomain transcription factor in zebrafish: Impact on mature pineal gland morphology and circadian behavior.

Authors:  Mikkel Bloss Carstensen; Adar Medvetzky; Alon Weinberger; Wolfgang Driever; Yoav Gothilf; Martin Fredensborg Rath
Journal:  J Pineal Res       Date:  2022-03-31       Impact factor: 12.081

Review 6.  microRNA function in left-right neuronal asymmetry: perspectives from C. elegans.

Authors:  Amel Alqadah; Yi-Wen Hsieh; Chiou-Fen Chuang
Journal:  Front Cell Neurosci       Date:  2013-09-23       Impact factor: 5.505

7.  Pleiotropic effects of Sox2 during the development of the zebrafish epithalamus.

Authors:  Sofia Pavlou; Katy Astell; Ioannis Kasioulis; Milica Gakovic; Richard Baldock; Veronica van Heyningen; Pedro Coutinho
Journal:  PLoS One       Date:  2014-01-31       Impact factor: 3.240
  7 in total

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