E. W. Devlin scite author profile

During digestive organogenesis, the primitive gut tube (PGT) undergoes dramatic elongation and forms a lumen lined by a single‐layer of epithelium. In Xenopus, endoderm cells in the core of the PGT rearrange during gut elongation, but the morphogenetic mechanisms controlling their reorganization are undetermined. Here, we define the dynamic changes in endoderm cell shape, polarity, and tissue architecture that underlie Xenopus gut morphogenesis. Gut endoderm cells intercalate radially, between their anterior and posterior neighbors, transforming the nearly solid endoderm core into a single layer of epithelium while concomitantly eliciting “radially convergent” extension within the gut walls. Inhibition of Rho/ROCK/Myosin II activity prevents endoderm rearrangements and consequently perturbs both gut elongation and digestive epithelial morphogenesis. Our results suggest that the cellular and molecular events driving tissue elongation in the PGT are mechanistically analogous to those that function during gastrulation, but occur within a novel cylindrical geometry to generate an epithelial‐lined tube. Developmental Dynamics 238:3111–3125, 2009. © 2009 Wiley‐Liss, Inc.

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Acute Toxicity, Uptake and Histopathology of Aqueous Methyl Mercury to Fathead Minnow Embryos

Devlin

2006

Ecotoxicology

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Early life stages of fishes have been shown to be especially susceptible to the toxic effects of heavy metal pollution. In this study, fathead minnow (Pimephales promelas) embryos were exposed in the laboratory to a graded series of aqueous methyl mercury concentrations under continuous-flow conditions. A number of toxicological endpoints were examined including; acute toxicity, bioaccumulation, protein production, impact on mitosis, gross and histopathology. Acute toxicity, reported as LC50 values of methyl mercury, ranged from 221 microg/l (95% C.I. 246-196 microg/l) for 24-h tests to 39 microg/l (95% C.I. 54-24 microg/l) for 96-h exposures. Fathead minnow embryos were shown to rapidly take up mercury from the surrounding water. Mercury levels in embryos reached levels of 2.80 microg/g wet weight after 96 h exposure to 40 microg/l methyl mercury. An initial elevation of total protein in embryo was observed in embryos exposed to 25 microg/l methyl mercury during the first 12 h of development. At later stages, significantly lower levels of protein/microg embryo were observed. Methyl mercury had no effect on mitotic stages (p=0.05) in early, cleaving blastula-stage embryos. Live embryos and serial sections were utilized to characterize changes in embryo morphology and histopathology.

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Embryotoxic action of methyl mercury on coho salmon embryos

Devlin

Mottet

1992

Bull. Environ. Contam. Toxicol.

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Effect of toluene on fathead minnow (Pimephales promelas Rafinesque) development

Devlin

Brammer

Puyear

1985

Arch. Environ. Contam. Toxicol.

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In Vitro Toxicity of Methyl Mercury to Fathead Minnow Cells

Devlin

Clary

1998

Bulletin of Environmental Contamination and Toxicology

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E. W. Devlin

Morphogenesis of the primitive gut tube is generated by Rho/ROCK/myosin II–mediated endoderm rearrangements

Acute Toxicity, Uptake and Histopathology of Aqueous Methyl Mercury to Fathead Minnow Embryos

Embryotoxic action of methyl mercury on coho salmon embryos

Effect of toluene on fathead minnow (Pimephales promelas Rafinesque) development

In Vitro Toxicity of Methyl Mercury to Fathead Minnow Cells

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