用于研究有机磷酸酯暴露期间行为的不同检测方法的比较分析。

A comparative analysis of distinct assays for the investigation of behavior during organophosphate exposure.

作者信息

Haszczyn Johanna, O'Connor Vincent, Holden-Dye Lindy, Green A Christopher, Kearn James

机构信息

Biological Sciences, University of Southampton, Southampton, England, United Kingdom.

Defence Science and Technology Laboratory, Salisbury, England, United Kingdom.

出版信息

MicroPubl Biol. 2025 May 16;2025. doi: 10.17912/micropub.biology.001533. eCollection 2025.

DOI:10.17912/micropub.biology.001533

PMID:40452866

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12125632/

Abstract

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 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 (

摘要

运动性是描述神经回路中基因和药物诱导变化的行为结果的一个便捷范例。运动性可以通过对在固体培养基上或液体中的运动进行评分来参数化。此外，体壁肌肉收缩会抑制咽部抽吸，从而提供一种间接的运动性测量方法。在此，研究了这些不同实验方法随着时间推移解析有机磷酸酯相关效应的能力。此外，还使用这些测定法研究了两种改变L型体壁肌肉神经肌肉功能的基因突变。这项工作突出了在分析有机磷酸酯对神经肌肉信号传导的作用方式时，不同行为筛选方法的优点和局限性。特别是，这项工作表明咽部抽吸能够解析急性和慢性有机磷酸酯相关效应，然而基于液体的测定法最适合解析遗传突变体L-AChR的表型（

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8fa4/12125632/8bcea187edd6/25789430-2025-micropub.biology.001533.jpg

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用于研究有机磷酸酯暴露期间行为的不同检测方法的比较分析。

A comparative analysis of distinct assays for the investigation of behavior during organophosphate exposure.

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