AI Article Synopsis
- The lateral line system in adult teleost fish shows varied patterns, but the reasons behind this variability are not well understood.
- Researchers found that in zebrafish, the mechanoreceptor neuromast can create new accessory neuromasts through a budding process during later stages of development.
- The formation of these accessory neuromasts is linked to the development of nearby dermal structures like bones and scales, with errors in bone development impacting neuromast positioning, indicating a strong relationship between the two.
Article Abstract
The lateral line system displays highly divergent patterns in adult teleost fish. The mechanisms underlying this variability are poorly understood. Here, we demonstrate that the lateral line mechanoreceptor, the neuromast, gives rise to a series of accessory neuromasts by a serial budding process during postembryonic development in zebrafish. We also show that accessory neuromast formation is highly correlated to the development of underlying dermal structures such as bones and scales. Abnormalities in opercular bone morphogenesis, in endothelin 1-knockdown embryos, are accompanied by stereotypic errors in neuromast budding and positioning, further demonstrating the tight correlation between the patterning of neuromasts and of the underlying dermal bones. In medaka, where scales form between peridermis and opercular bones, the lateral line displays a scale-specific pattern which is never observed in zebrafish. These results strongly suggest a control of postembryonic neuromast patterns by underlying dermal structures. This dermal control may explain some aspects of the evolution of lateral line patterns.
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| http://dx.doi.org/10.1016/j.ydbio.2010.02.017 | DOI Listing |
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