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Main Authors: Vassalli, Quirino Attilio, Fasano, Giulia, Nittoli, Valeria, Gagliardi, Eleonora, Sepe, Rosa Maria, Donizetti, Aldo, Aniello, Francesco, Sordino, Paolo, Kelsh, Robert, Locascio, Annamaria
Format: Artículo científico
Language:en
Published: Cells 2024
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/39768162/
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author Vassalli, Quirino Attilio
Fasano, Giulia
Nittoli, Valeria
Gagliardi, Eleonora
Sepe, Rosa Maria
Donizetti, Aldo
Aniello, Francesco
Sordino, Paolo
Kelsh, Robert
Locascio, Annamaria
author_facet Vassalli, Quirino Attilio
Fasano, Giulia
Nittoli, Valeria
Gagliardi, Eleonora
Sepe, Rosa Maria
Donizetti, Aldo
Aniello, Francesco
Sordino, Paolo
Kelsh, Robert
Locascio, Annamaria
Vassalli, Quirino Attilio
Fasano, Giulia
Nittoli, Valeria
Gagliardi, Eleonora
Sepe, Rosa Maria
Donizetti, Aldo
Aniello, Francesco
Sordino, Paolo
Kelsh, Robert
Locascio, Annamaria
collection PubMed - marine biology
contents The Zebrafish Retina and the Evolution of the Onecut-Mediated Pathway in Cell Type Differentiation. Vassalli, Quirino Attilio Fasano, Giulia Nittoli, Valeria Gagliardi, Eleonora Sepe, Rosa Maria Donizetti, Aldo Aniello, Francesco Sordino, Paolo Kelsh, Robert Locascio, Annamaria Animals Zebrafish Cell Differentiation Retina Zebrafish Proteins Gene Expression Regulation, Developmental () genes play an important role in the proper formation of retinal cells in vertebrates, in particular horizontal, retinal ganglion and amacrine cells. However, it is not fully known how the unique and combined action of multiple gene copies leads to the induction and differentiation of specific retinal cell types. To gain new insights on how genes influence retina formation, we have examined the developmental role of , and genes during eye formation in the non-mammalian vertebrate zebrafish . By using single and multiple morpholino knockdown of three zebrafish genes we provide evidence for the independent and redundant role of each gene in the formation of photoreceptors and other retinal tissues. Through comparison of genetic pathways in photoreceptor differentiation among chordates we demonstrate their mechanism of action through a series of conserved target genes involved in neural transmission.
format Artículo científico
id pubmed_39768162
institution PubMed
language en
publishDate 2024
publisher Cells
record_format pubmed
spellingShingle The Zebrafish Retina and the Evolution of the Onecut-Mediated Pathway in Cell Type Differentiation.
Vassalli, Quirino Attilio
Fasano, Giulia
Nittoli, Valeria
Gagliardi, Eleonora
Sepe, Rosa Maria
Donizetti, Aldo
Aniello, Francesco
Sordino, Paolo
Kelsh, Robert
Locascio, Annamaria
Animals
Zebrafish
Cell Differentiation
Retina
Zebrafish Proteins
Gene Expression Regulation, Developmental
The Zebrafish Retina and the Evolution of the Onecut-Mediated Pathway in Cell Type Differentiation. Vassalli, Quirino Attilio Fasano, Giulia Nittoli, Valeria Gagliardi, Eleonora Sepe, Rosa Maria Donizetti, Aldo Aniello, Francesco Sordino, Paolo Kelsh, Robert Locascio, Annamaria Animals Zebrafish Cell Differentiation Retina Zebrafish Proteins Gene Expression Regulation, Developmental () genes play an important role in the proper formation of retinal cells in vertebrates, in particular horizontal, retinal ganglion and amacrine cells. However, it is not fully known how the unique and combined action of multiple gene copies leads to the induction and differentiation of specific retinal cell types. To gain new insights on how genes influence retina formation, we have examined the developmental role of , and genes during eye formation in the non-mammalian vertebrate zebrafish . By using single and multiple morpholino knockdown of three zebrafish genes we provide evidence for the independent and redundant role of each gene in the formation of photoreceptors and other retinal tissues. Through comparison of genetic pathways in photoreceptor differentiation among chordates we demonstrate their mechanism of action through a series of conserved target genes involved in neural transmission.
title The Zebrafish Retina and the Evolution of the Onecut-Mediated Pathway in Cell Type Differentiation.
topic Animals
Zebrafish
Cell Differentiation
Retina
Zebrafish Proteins
Gene Expression Regulation, Developmental
url https://pubmed.ncbi.nlm.nih.gov/39768162/