2024
DOI: 10.3389/fcell.2024.1327924
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Identification of multiple transcription factor genes potentially involved in the development of electrosensory versus mechanosensory lateral line organs

Martin Minařík,
Melinda S. Modrell,
J. Andrew Gillis
et al.

Abstract: In electroreceptive jawed vertebrates, embryonic lateral line placodes give rise to electrosensory ampullary organs as well as mechanosensory neuromasts. Previous reports of shared gene expression suggest that conserved mechanisms underlie electroreceptor and mechanosensory hair cell development and that electroreceptors evolved as a transcriptionally related “sister cell type” to hair cells. We previously identified only one transcription factor gene, Neurod4, as ampullary organ-restricted in the developing l… Show more

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Cited by 4 publications
(1 citation statement)
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“…foxg1a has been investigated in zebrafish neural development, but our study is the first to look specifically at lateral line development and regeneration (Raj et al, 2020; Toresson, Martinez-Barbera, Bardsley, Caubit, & Krauss, 1998; Zhao et al, 2009). Though recent research suggests foxg1 is required for the proper development of electroreceptors in the lateral line of paddle fish (Minarik et al, 2024). Our work demonstrates that foxg1a is necessary for the proper development and regeneration of the zebrafish pLL.…”
Section: Discussionmentioning
confidence: 99%
“…foxg1a has been investigated in zebrafish neural development, but our study is the first to look specifically at lateral line development and regeneration (Raj et al, 2020; Toresson, Martinez-Barbera, Bardsley, Caubit, & Krauss, 1998; Zhao et al, 2009). Though recent research suggests foxg1 is required for the proper development of electroreceptors in the lateral line of paddle fish (Minarik et al, 2024). Our work demonstrates that foxg1a is necessary for the proper development and regeneration of the zebrafish pLL.…”
Section: Discussionmentioning
confidence: 99%