2014
DOI: 10.1002/dvg.22836
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The ascidian pigmented sensory organs: structures and developmental programs

Abstract: Summary: The recent advances on ascidian pigment sensory organ development and function represent a fascinating platform to get insight on the basic programs of chordate eye formation. This review aims to summarize current knowledge, at the structural and molecular levels, on the two main building blocks of ascidian light sensory organ, i.e. pigment cells and photoreceptor cells. The unique features of these structures (e.g., simplicity and well characterized cell lineage) are indeed making it possible to diss… Show more

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Cited by 17 publications
(18 citation statements)
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References 130 publications
(222 reference statements)
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“…Some, but not all, of the photoreceptors associated with the ocellus are glutamatergic, while some appear to be GABA/glycinergic . Photo‐transduction and visual cycle genes of the ocellus photoreceptors have been reviewed elsewhere . The opening of the pigmented cup is ventral‐anterior .…”
Section: Cell Types In the Cnsmentioning
confidence: 99%
See 1 more Smart Citation
“…Some, but not all, of the photoreceptors associated with the ocellus are glutamatergic, while some appear to be GABA/glycinergic . Photo‐transduction and visual cycle genes of the ocellus photoreceptors have been reviewed elsewhere . The opening of the pigmented cup is ventral‐anterior .…”
Section: Cell Types In the Cnsmentioning
confidence: 99%
“…The pigment cell lineage is also well described (Figure (a)). Pigment cells most likely share an evolutionary relationship with the cephalic neural crest of vertebrates (for more discussion on evolutionary relationships of pigmented cells, see Ref ). Pigment cells arise from the lateral‐most a‐line‐derived CNS.…”
Section: Step‐by‐step Cell Fate Specification In the Cnsmentioning
confidence: 99%
“…These differentiation events occur very late in development, with melanization of the second of the two pigment cells appearing only just before the larval stage. Much is known about the cell type specification pathways for these cells (Esposito et al, 2015). They are derived from the bilateral a8.25 cells and require induction from vegetal blastomeres at the 32-cell stage for later pigment expression (Nishida, 1987; Nishida and Satoh, 1989; Oonuma et al, 2016).…”
Section: Discussionmentioning
confidence: 99%
“…The sensory vesicle contains different sensory receptor cells, including the anterior geotactic otolith (Ot; Dilly, ; Tsuda, Sakurai, & Goda, ) and the posterior photoreceptive ocellus (Oc; Dilly, ; Tsuda et al, ). The Ot is a gravity‐sensing organ made of a single pigment cell, whereas the photo‐sensing Oc is a multicellular structure (composed of one pigment cell, three lens cells, and 37 photoreceptors cells in C. robusta ; Esposito et al, ; Ryan, Lu, & Meinertzhagen, ) and the complete GRN driving the specification of pigmented cells has been described (Racioppi et al, ).…”
Section: Ascidian Neurodevelopment and Edcs Toxicitymentioning
confidence: 99%
“…Within the sensory vesicle, two pigmented cells are visible: the otolith (Ot) and the ocellus (Oc). The otolith is a gravity‐sensing organ made of a single pigment cell, whereas the photo‐sensing ocellus is a multicellular structure composed of one pigment cell, three lens cells and 37 photoreceptors cells (Esposito et al, ; Racioppi et al, ; Ryan et al, ). Other sensory cells are also present, such as antenna cells and coronet cells (Ryan et al, ; adapted from Hudson, ).…”
Section: Ascidian Neurodevelopment and Edcs Toxicitymentioning
confidence: 99%