Brains in Metamorphosis: Temporal Transcriptome Dynamics in Hatchery-Reared Flatfishes

Metamorphosis is a captivating process of change during which the morphology of the larva is completely reshaped to face the new challenges of adult life. In the case of fish, this process initiated in the brain has traditionally been considered to be a critical rearing point and despite the pioneer...

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Bibliographic Details
Published in:Biology
Main Authors: Laura Guerrero-Peña, Paula Suarez-Bregua, Luis Méndez-Martínez, Pablo García-Fernández, Ricardo Tur, Juan A. Rubiolo, Juan J. Tena, Josep Rotllant
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2021
Subjects:
turbot
metamorphosis
brain
RNA
sequencing
transcriptome
Biology (General)
QH301-705.5
Turbot
Online Access:https://doi.org/10.3390/biology10121256
https://doaj.org/article/adaaf0de90094865b1e56354e5fa4bed
Description
Summary:Metamorphosis is a captivating process of change during which the morphology of the larva is completely reshaped to face the new challenges of adult life. In the case of fish, this process initiated in the brain has traditionally been considered to be a critical rearing point and despite the pioneering molecular work carried out in other flatfishes, the underlying molecular basis is still relatively poorly characterized. Turbot brain transcriptome of three developmental stages (pre-metamorphic, climax of metamorphosis and post-metamorphic) were analyzed to study the gene expression dynamics throughout the metamorphic process. A total of 1570 genes were differentially expressed in the three developmental stages and we found a specific pattern of gene expression at each stage. Unexpectedly, at the climax stage of metamorphosis, we found highly expressed genes related to the immune response, while the biological pathway enrichment analysis in pre-metamorphic and post-metamorphic were related to cell differentiation and oxygen carrier activity, respectively. In addition, our results confirm the importance of thyroid stimulating hormone, increasing its expression during metamorphosis. Based on our findings, we assume that immune system activation during the climax of metamorphosis stage could be related to processes of larval tissue inflammation, resorption and replacement, as occurs in other vertebrates.

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