Cellular and molecular mechanisms of regeneration in colonial and solitary Ascidians

Regenerative ability is highly variable among the metazoans. While many invertebrate organisms are capable of complete regeneration of entire bodies and organs, whole-organ regeneration is limited to very few species in the vertebrate lineages. Tunicates, which are invertebrate chordates and the clo...

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Veröffentlicht in:	Developmental biology 2019-04, Vol.448 (2), p.271-278
Hauptverfasser:	Kassmer, Susannah H., Nourizadeh, Shane, De Tomaso, Anthony W.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Central Nervous System - physiology Epithelium - physiology Regeneration - genetics Stem Cells - cytology Urochordata - anatomy & histology Urochordata - cytology Urochordata - genetics Urochordata - physiology
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container_title	Developmental biology
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creator	Kassmer, Susannah H. Nourizadeh, Shane De Tomaso, Anthony W.
description	Regenerative ability is highly variable among the metazoans. While many invertebrate organisms are capable of complete regeneration of entire bodies and organs, whole-organ regeneration is limited to very few species in the vertebrate lineages. Tunicates, which are invertebrate chordates and the closest extant relatives of the vertebrates, show robust regenerative ability. Colonial ascidians of the family of the Styelidae, such as several species of Botrylloides, are able to regenerate entire new bodies from nothing but fragments of vasculature, and they are the only chordates that are capable of whole body regeneration. The cell types and signaling pathways involved in whole body regeneration are not well understood, but some evidence suggests that blood borne cells may play a role. Solitary ascidians such as Ciona can regenerate the oral siphon and their central nervous system, and stem cells located in the branchial sac are required for this regeneration. Here, we summarize the cellular and molecular mechanisms of tunicate regeneration that have been identified so far and discuss differences and similarities between these mechanisms in regenerating tunicate species.
doi_str_mv	10.1016/j.ydbio.2018.11.021
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subjects	Animals Central Nervous System - physiology Epithelium - physiology Regeneration - genetics Stem Cells - cytology Urochordata - anatomy & histology Urochordata - cytology Urochordata - genetics Urochordata - physiology
title	Cellular and molecular mechanisms of regeneration in colonial and solitary Ascidians
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