1994
DOI: 10.1242/dev.120.4.901
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Selective disruption of E-cadherin function in early Xenopus embryos by a dominant negative mutant

Abstract: E-cadherin function was disrupted in vivo in developing Xenopus laevis embryos through the expression of a mutant E-cadherin protein lacking its cytoplasmic tail. This truncated form of E-cadherin was designed to act as a dominant negative mutant by competing with the extracellular interactions of wild-type endogenous E-cadherin. Expression of truncated E-cadherin in the early embryo causes lesions to develop in the ectoderm during gastrulation. In contrast, expression of a similarly truncated N-cadherin prote… Show more

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Cited by 167 publications
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“…The importance of cadherins in maintaining tissue integrity was first demonstrated through experiments involving embryos expressing mutant forms of E-cadherin. These embryos displayed multiple phenotypes including dissociation of blastomeres and defects in epithelial integrity and gastrulation [1,[4][5][6]. In the case of mouse embryos, Ecadherin facilitated compaction.…”
mentioning
confidence: 99%
“…The importance of cadherins in maintaining tissue integrity was first demonstrated through experiments involving embryos expressing mutant forms of E-cadherin. These embryos displayed multiple phenotypes including dissociation of blastomeres and defects in epithelial integrity and gastrulation [1,[4][5][6]. In the case of mouse embryos, Ecadherin facilitated compaction.…”
mentioning
confidence: 99%