2020
DOI: 10.3390/jdb8010007
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Game of Tissues: How the Epidermis Thrones C. elegans Shape

Abstract: The versatility of epithelial cell structure is universally exploited by organisms in multiple contexts. Epithelial cells can establish diverse polarized axes within their tridimensional structure which enables them to flexibly communicate with their neighbors in a 360° range. Hence, these cells are central to multicellularity, and participate in diverse biological processes such as organismal development, growth or immune response and their misfunction ultimately impacts disease. During the development of an … Show more

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Cited by 15 publications
(18 citation statements)
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“…The body plan of C. elegans is relatively simple, and elongation of the initially ovoid embryo into a vermiform larva is driven largely by epidermal cell morphogenesis. This elongation comprises three epidermal cell morphogenetic events: dorsal intercalation, ventral enclosure, and seam cell elongation ( Sulston et al 1983 ; Priess and Hirsh 1986 ; Chin-Sang and Chisholm 2000 ; Simske and Hardin 2001 ; Chisholm and Hardin 2005 ; Hall and Altun 2008 ; Carvalho and Broday 2020 ).…”
Section: Introductionmentioning
confidence: 99%
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“…The body plan of C. elegans is relatively simple, and elongation of the initially ovoid embryo into a vermiform larva is driven largely by epidermal cell morphogenesis. This elongation comprises three epidermal cell morphogenetic events: dorsal intercalation, ventral enclosure, and seam cell elongation ( Sulston et al 1983 ; Priess and Hirsh 1986 ; Chin-Sang and Chisholm 2000 ; Simske and Hardin 2001 ; Chisholm and Hardin 2005 ; Hall and Altun 2008 ; Carvalho and Broday 2020 ).…”
Section: Introductionmentioning
confidence: 99%
“…Enclosure completes when the pocket cells meet and fuse at the ventral midline, likely by a “purse-string” mechanism utilizing an actomyosin cable similar to Drosophila dorsal closure ( Williams-Masson et al 1997 ; Gilbert et al 2020 ). The movement of the ventral epidermal cells also requires the underlying neuroblasts; loss of the ephrin receptor VAB-1 in neuroblasts results in the lack of neuroblast ventral cleft closure and the subsequent nonautonomous halting of epidermal leading cell migration ( George et al 1998 ; Chin-Sang et al 1999 ; Carvalho and Broday 2020 ).…”
Section: Introductionmentioning
confidence: 99%
“…The body plan of C. elegans is relatively simple, and elongation of the initially ovoid embryo into a vermiform larva is driven largely by epidermal cell morphogenesis. This elongation comprises three epidermal cell morphogenetic events: dorsal intercalation, ventral enclosure, and seam cell elongation (Carvalho and Broday, 2020;Chin-Sang and Chisholm, 2000;Chisholm and Ventral enclosure begins as dorsal intercalation ends and serves to cover the posterior ventral surface of the embryo with a layer of epidermal cells. In the first step, two pairs of leading cells, V0 and V18 on the left side and V1 and V19 on the right side ( Figure 1A), extend actin-rich filopodia towards the ventral midline until they meet and form stable adherens junctions.…”
Section: Introductionmentioning
confidence: 99%
“…The movement of the ventral epidermal cells also requires the underlying neuroblasts; loss of the ephrin receptor VAB-1 in neuroblasts results in the lack of neuroblast ventral cleft closure and the subsequent non-autonomous halting of epidermal leading cell migration (Carvalho and Broday, 2020;Chin-Sang et al, 1999;George et al, 1998).…”
Section: Introductionmentioning
confidence: 99%
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