A comparative analysis of distinct assays for the investigation of Caenorhabditis elegans behavior during organophosphate exposure
A comparative analysis of distinct assays for the investigation of Caenorhabditis elegans behavior during organophosphate exposure
C. elegans motility is a convenient paradigm to describe the behavioral outcome of genetic- and drug-induced changes in neural circuits. Motility may be parameterized by scoring movement on solid medium or in liquid. In addition, body wall muscle contraction inhibits pharyngeal pumping, providing an indirect measure of motility. Here, the ability of these different experimental approaches to resolve organophosphate-related effects over time was investigated. In addition, two genetic mutations that alter neuromuscular function at the L-type body wall muscle were also investigated using these assays. This work highlights the benefits and limitations of distinct screening approaches for C. elegans behavior when analysing organophosphate mode of action on neuromuscular signalling. In particular, this work showed that pharyngeal pumping was able to resolve acute and chronic organophosphate-related effects, however liquid-based assays were best suited to resolve the phenotype of the genetic mutant L-AChR (ufis6).
Holden-Dye, Lindy
8032bf60-5db6-40cb-b71c-ddda9d212c8e
O'connor, Vincent
8021b06c-01a0-4925-9dde-a61c8fe278ca
Haszczyn, Jo
f55b4da4-7290-44b1-8043-8e7560b31c02
Green, Christopher
33c42735-908e-44bd-be54-bf51ee79d03b
Kearn, James
f10467c2-3498-4f7f-affc-0a528252245d
Holden-Dye, Lindy
8032bf60-5db6-40cb-b71c-ddda9d212c8e
O'connor, Vincent
8021b06c-01a0-4925-9dde-a61c8fe278ca
Haszczyn, Jo
f55b4da4-7290-44b1-8043-8e7560b31c02
Green, Christopher
33c42735-908e-44bd-be54-bf51ee79d03b
Kearn, James
f10467c2-3498-4f7f-affc-0a528252245d
Holden-Dye, Lindy, O'connor, Vincent, Haszczyn, Jo, Green, Christopher and Kearn, James
(2025)
A comparative analysis of distinct assays for the investigation of Caenorhabditis elegans behavior during organophosphate exposure.
Micropublication Biology.
(doi:10.17912/micropub.biology.001533).
Abstract
C. elegans motility is a convenient paradigm to describe the behavioral outcome of genetic- and drug-induced changes in neural circuits. Motility may be parameterized by scoring movement on solid medium or in liquid. In addition, body wall muscle contraction inhibits pharyngeal pumping, providing an indirect measure of motility. Here, the ability of these different experimental approaches to resolve organophosphate-related effects over time was investigated. In addition, two genetic mutations that alter neuromuscular function at the L-type body wall muscle were also investigated using these assays. This work highlights the benefits and limitations of distinct screening approaches for C. elegans behavior when analysing organophosphate mode of action on neuromuscular signalling. In particular, this work showed that pharyngeal pumping was able to resolve acute and chronic organophosphate-related effects, however liquid-based assays were best suited to resolve the phenotype of the genetic mutant L-AChR (ufis6).
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micropub-biology-001533
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Accepted/In Press date: 16 April 2025
e-pub ahead of print date: 16 May 2025
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Local EPrints ID: 508224
URI: http://eprints.soton.ac.uk/id/eprint/508224
ISSN: 2578-9430
PURE UUID: a0d3cf24-a6ae-439b-bacf-2ba21fcc77f8
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Date deposited: 14 Jan 2026 18:07
Last modified: 15 Jan 2026 02:36
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Author:
Christopher Green
Author:
James Kearn
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