Anthony K. Canger scite author profile

Vsx-1 and Vsx-2 are two homeobox genes that were cloned originally from an adult goldfish retinal library. They are members of the paired-like:CVC gene family, which is characterized by the presence of a paired homeodomain and an additional conserved region, termed the CVC domain. To analyze the possible roles for Vsx-1 and Vsx-2 in eye development, we used in situ hybridization to examine their expression patterns in zebrafish and goldfish embryos. Vsx-2 is initially expressed by proliferating neuroepithelial cells of the presumptive neural retina, then it is down-regulated as differentiation begins, and it is finally reexpressed at later stages of differentiation in a subset of cells, presumed to be bipolar cells, in the inner nuclear layer. In contrast, Vsx-1 is expressed only weakly in undifferentiated, presumptive neural retina and is then up-regulated selectively in presumptive bipolar cells at early stages of differentiation (when Vsx-2 is turned off), before decreasing to an intermediate level, which is maintained in the differentiated (adult) retina. The restricted expression patterns of Vsx-2 correspond to the observed phenotypes in mice with the ocular retardation mutation (orJ), further supporting the notion that Vsx-2 and Chx10 are homologues. The sequential complimentary and then corresponding expression patterns of Vsx-1 and Vsx-2 suggest that these similar transcription factors may be recruited for partially overlapping, but distinct, functions during the development of the retina.

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Cloning of zebrafish vsx1: Expression of a paired‐like homeobox gene during CNS development

Passini

Kurtzman

Canger

et al. 1998

Dev. Genet.

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vsx1 is a homeobox gene encoding a paired-type homeodomain and a CVC domain that was originally cloned from an adult goldfish retinal library. We previously reported the spatiotemporal expression pattern of vsx1 in the adult and developing retina of zebrafish and goldfish, and we suggested that vsx1 plays a role in determining the cell fate and maintenance of retinal interneurons. Other related genes encoding a CVC domain, such as vsx2 (alx) and chx10, are expressed both within and outside the retina during development. In this study, we report the cloning of zebrafish vsx1 and its developmental expression in both retinal and nonretinal regions of the CNS in zebrafish embryos. vsx1 expression was detected in a subset of hindbrain and spinal cord neurons before it was expressed in the retina. At about the same time that retinal expression began, the level of vsx1 was decreased in the spinal cord. The expression of vsx1 was progressively restricted, and eventually it was detected only in the inner nuclear layer (INL) of the developing retina. The combined expression patterns of teleost vsx1 and vsx2 (alx) during early zebrafish development encompasses the expression pattern observed for murine Chx10, and indicates a partitioning of function for CVC genes in lower vertebrates.

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Cloning of Zebrafish Neurofilament cDNAs for Plasticin and Gefiltin: Increased mRNA Expression in Ganglion Cells After Optic Nerve Injury

Asch¹,

Leake²,

Canger³

et al. 1998

Journal of Neurochemistry

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During retinal growth and optic axon regeneration, the differential expression of the neuronal intermediate filament proteins, plasticin and gefiltin, in the goldfish visual pathway suggests that these proteins support programmed axonal growth. To investigate plasticin and gefiltin during axonogenesis, we turned to the zebrafish, a system that is more amenable to mutational analysis. As a first step, we demonstrated that the intermediate filament compositions of goldfish and zebrafish are similar. In addition, the cDNAs for zebrafish plasticin and gefiltin were cloned and characterized. Using in situ hybridization in retina, we show increased mRNA levels for these proteins following optic nerve crush. Zebrafish plasticin and gefiltin peak and return to baseline levels of expression more rapidly than in goldfish. Furthermore, in the unoperated eye of experimental fish, there was a moderate increase in the levels of plasticin and gefiltin mRNA, suggesting that soluble factors influence the expression of these proteins. The successive expression of plasticin and gefiltin suggests that these neuronal intermediate filament proteins are integral components of axonogenesis. The cloning and characterization of cDNAs for plasticin and gefiltin permit mutational analyses of these proteins during zebrafish axonogenesis.

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Anthony K. Canger

Vsx-1 andVsx-2: Differential expression of twoPaired-like homeobox genes during zebrafish and goldfish retinogenesis

Cloning of zebrafish vsx1: Expression of a paired‐like homeobox gene during CNS development

Cloning of Zebrafish Neurofilament cDNAs for Plasticin and Gefiltin: Increased mRNA Expression in Ganglion Cells After Optic Nerve Injury

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