Tunic cell populations during fusion events in the colonial ascidian Didemnum vexillum (Tunicata)

We documented changes in the abundance and distribution patterns of tunic cells involved in the allorecognition response of the colonial aplousobranch Didemnum vexillum, whose zooids do not share a common vascular system. A histological examination of the fusion zone of isogeneic (CIAs) and allogene...

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Veröffentlicht in:	Invertebrate biology 2013-12, Vol.132 (4), p.394-403
Hauptverfasser:	Sellers, Andrea E, Fagerberg, Wayne R, Litvaitis, Marian K
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Sprache:	eng
Schlagworte:	allorecognition Aplousobranchia Ascidian didemnum bladder Didemnum vexillum Marine morula morula cells phagocytes phagocytic cells population Tunicata Vexillum
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creator	Sellers, Andrea E Fagerberg, Wayne R Litvaitis, Marian K
description	We documented changes in the abundance and distribution patterns of tunic cells involved in the allorecognition response of the colonial aplousobranch Didemnum vexillum, whose zooids do not share a common vascular system. A histological examination of the fusion zone of isogeneic (CIAs) and allogeneic (CAAs) fused colony assays revealed that tunic cuticles were rapidly regenerated. The underlying tunic matrix fused readily in all assays and controls. We identified four different types of tunic cells. Phagocytic cells represented the most abundant cell type in allogeneic fusions, followed by morula cells. These cells were more abundant at the immediate fusion junction than at 120 μm or 240 μm from the junction, most likely because they mediate the allorecognition reaction. Elongated filopodial cells also were present, although only at very low abundances, and a layer of bladder cells was located immediately below the cuticle. Our results provide quantitative evidence for the involvement of tunic cells in the allorecognition response of a highly invasive ascidian.
doi_str_mv	10.1111/ivb.12033
format	Article
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A histological examination of the fusion zone of isogeneic (CIAs) and allogeneic (CAAs) fused colony assays revealed that tunic cuticles were rapidly regenerated. The underlying tunic matrix fused readily in all assays and controls. We identified four different types of tunic cells. Phagocytic cells represented the most abundant cell type in allogeneic fusions, followed by morula cells. These cells were more abundant at the immediate fusion junction than at 120 μm or 240 μm from the junction, most likely because they mediate the allorecognition reaction. Elongated filopodial cells also were present, although only at very low abundances, and a layer of bladder cells was located immediately below the cuticle. Our results provide quantitative evidence for the involvement of tunic cells in the allorecognition response of a highly invasive ascidian.</abstract><cop>Hoboken</cop><pub>Allen Press</pub><doi>10.1111/ivb.12033</doi><tpages>10</tpages></addata></record>
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subjects	allorecognition Aplousobranchia Ascidian didemnum bladder Didemnum vexillum Marine morula morula cells phagocytes phagocytic cells population Tunicata Vexillum
title	Tunic cell populations during fusion events in the colonial ascidian Didemnum vexillum (Tunicata)
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