PUBLICATION

The function of silberblick in the positioning of the eye anlage in the zebrafish embryo

Authors
Heisenberg, C.P. and Nüsslein-Volhard, C.
ID
ZDB-PUB-970602-19
Date
1997
Source
Developmental Biology   184(1): 85-94 (Journal)
Registered Authors
Heisenberg, Carl-Philipp, Nüsslein-Volhard, Christiane
Keywords
none
MeSH Terms
  • Cell Movement
  • Zebrafish
  • Body Patterning
  • Mutation
  • Central Nervous System/cytology
  • Central Nervous System/embryology*
  • Morphogenesis
  • Cell Transplantation
  • Eye/embryology*
  • Gastrula
  • Notochord
  • Phenotype
  • Animals
(all 13)
PubMed
9142986 Full text @ Dev. Biol.
Abstract
In zebrafish, as in other vertebrates, an initially singular eye field within the neural plate has to split during morphogenesis to allow the development of two separated eyes. It has been suggested that anterior progression of midline tissue within the neural plate is involved in the bilateralization of the eye field. Mutations in the recently identified silberblick (slb) gene cause an incomplete separation of the eyes. During gastrulation and early somitogenesis, the ventral midline of the central nervous system (CNS) together with the underlying axial mesendoderm is shortened and broadened in slb embryos. While in wild-type embryos the ventral CNS midline extends to the anterior limit of the neural plate at the end of gastrulation, there is a gap between the anterior tip of the ventral CNS midline and the anterior edge of the neural plate in slb. To investigate the cause for the shortening of the ventral CNS midline in slb we determined the fate of labeled ventral CNS midline cells in wild-type and slb embryos at different stages of development. In slb, anterior migration of ventral CNS midline cells is impaired, which indicates that migration of these cells is needed for elongation of the ventral CNS midline. The anterior shortening of the ventral CNS midline in slb leads to medial instead of bilateral induction of optic stalks followed by a partial fusion of the eyes at later developmental stages. The analysis of the slb phenotype indicates that anterior migration of midline cells within the neural plate is required for proper induction and subsequent bilateralization of an initially singular eye field. These findings may therefore provide a starting point in elucidating the role of neural plate morphogenesis in positioning of the eyes.
Genes / Markers
Figures
Figure Gallery (8 images)
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Expression
No data available
Phenotype
Fish Conditions Stage Phenotype Figure
ndr1cz35/cz35standard conditionsBud
ndr1cz35/cz35standard conditionsBud
ndr1cz35/cz35standard conditionsPrim-5
ndr1cz35/cz35standard conditionsPrim-5
ndr1cz35/cz35standard conditionsPrim-5
vangl2tc240/tc240standard conditionsBud
vangl2tc240/tc240standard conditionsBud
vangl2tc240/tc240standard conditionsBud
vangl2tc240/tc240standard conditionsBud
vangl2tc240/tc240standard conditionsPrim-5
1 - 10 of 39
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Mutations / Transgenics
Allele Construct Type Affected Genomic Region
cz35
    		Insertion
    tc41
      		Unknown
      tc240
        		Insertion
        tx226
          		Point Mutation
          tz216
            		Point Mutation
            1 - 5 of 5
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            Human Disease / Model
            No data available
            Sequence Targeting Reagents
            No data available
            Fish
            Fish
            ndr1cz35/cz35
            tbxtatc41
            vangl2tc240/tc240
            wnt11f2tx226/tx226
            wnt11f2tx226/tx226; ndr1cz35/cz35
            wnt11f2tx226/tx226; vangl2tc240/tc240
            wnt11f2tz216/tz216
            1 - 7 of 7
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            Antibodies
            Name Type Antigen Genes Isotypes Host Organism
            Ab1-tapolyclonalRabbit
            1 - 1 of 1
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            Orthology
            No data available
            Engineered Foreign Genes
            No data available
            Mapping
            No data available
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            Citation
            Heisenberg, C.P. and Nüsslein-Volhard, C. (1997) The function of silberblick in the positioning of the eye anlage in the zebrafish embryo. Developmental Biology. 184(1):85-94.