Fabien Soubiran scite author profile

The lateral line of the zebrafish has many of the advantages that made the sensory organs of Drosophila a very productive model system: 1) it comprises a set of discrete sense organs (neuromasts) arranged in a defined, species-specific pattern, such that each organ can be individually recognized; 2) the neuromasts are superficial and easy to visualize, and the innervating neurons are easy to label; 3) the sensory projection is simple yet reproducibly organized. Here we describe some of the tools that can be used to investigate the development of this system, and we illustrate their usefulness with specific exemples. We conclude that the lateral line is uniquely suited among vertebrate sensory systems for a molecular, cellular and genetic analysis of pattern formation and of neural development.

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Cell proliferation in the developing lateral line system of zebrafish embryos

Laguerre

Soubiran

Ghysen

et al. 2005

Developmental Dynamics

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The sensory organs of the embryonic lateral line system are deposited by migrating primordia that originate in the otic region. Here, we examine the pattern of cell proliferation in the posterior lateral line system. We conclude that three phases of cell proliferation are involved in the generation of this system, separated by two phases of mitotic quiescence. The first phase corresponds to generalized proliferation

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Control of cell migration in the zebrafish lateral line: Implication of the gene “Tumour-Associated Calcium Signal Transducer,”tacstd

et al. 2006

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The sensory organs of the zebrafish lateral-line system (neuromasts) originate from migrating primordia that move along precise pathways. The posterior primordium, which deposits the neuromasts on the body and tail of the embryo, migrates along the horizontal myoseptum from the otic region to the tip of the tail. This migration is controlled by the chemokine SDF1, which is expressed along the prospective pathway, and by its receptor CXCR4, which is expressed by the migrating cells. In this report, we describe another zebrafish gene that is heterogeneously expressed in the migrating cells, tacstd. This gene codes for a membrane protein that is homologous to the TACSTD1/2 mammalian proteins. Inactivation of the zebrafish tacstd gene results in a decrease in proneuromast deposition, suggesting that tacstd is required for the deposition process. Developmental Dynamics 235:1578 -1588, 2006.

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Fabien Soubiran

The lateral line of zebrafish: a model system for the analysis of morphogenesis and neural development in vertebrates

Cell proliferation in the developing lateral line system of zebrafish embryos

Control of cell migration in the zebrafish lateral line: Implication of the gene “Tumour-Associated Calcium Signal Transducer,”tacstd

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