Building an eDNA surveillance toolkit for invasive rodents on islands: can we detect wild-type and gene drive Mus musculus?

IF 4.4 1区生物学 Q1 BIOLOGY

BMC Biology Pub Date : 2024-11-15 DOI:10.1186/s12915-024-02063-0

Antoinette J Piaggio, Luke Gierus, Daniel R Taylor, Nick D Holmes, David J Will, Neil J Gemmell, Paul Q Thomas

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引用次数: 0

Abstract

Background: Invasive management strategies range from preventing new invasive species incursions to eliminating established populations, with all requiring effective monitoring to guide action. The use of DNA sampled from the environment (eDNA) is one such tool that provides the ability to surveille and monitor target invasive species through passive sampling. Technology being developed to eliminate invasive species includes genetic biocontrol in the form of gene drive. This approach would drive a trait through a population and could be used to eliminate or modify a target population. Once a gene drive organism is released into a population then monitoring changes in density of the target species and the spread of the drive in the population would be critical.

Results: In this paper, we use invasive Mus musculus as a model for development of an eDNA assay that detects wild-type M. musculus and gene drive M. musculus. We demonstrate successful development of an assay where environmental samples could be used to detect wild-type invasive M. musculus and the relative density of wild-type to gene drive M. musculus.

Conclusions: The development of a method that detects both wild-type M. musculus and a gene drive M. musculus (t_CRISPR) from environmental samples expands the utility of environmental DNA. This method provides a tool that can immediately be deployed for invasive wild M. musculus management across the world. This is a proof-of-concept that a genetic biocontrol construct could be monitored using environmental samples.

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为岛屿上的入侵啮齿动物建立 eDNA 监测工具包：我们能检测野生型和基因驱动型麝吗？

背景：入侵管理策略从防止新的入侵物种入侵到消灭已建立的种群，所有策略都需要有效的监测来指导行动。使用从环境中提取的 DNA 样本（eDNA）就是这样一种工具，它能够通过被动取样来调查和监测目标入侵物种。正在开发的消灭入侵物种的技术包括基因驱动形式的遗传生物控制。这种方法将通过种群驱动一种性状，可用于消灭或改变目标种群。一旦基因驱动生物体被释放到一个种群中，那么监测目标物种密度的变化以及基因驱动在种群中的传播情况将至关重要：在本文中，我们以入侵麝为模型，开发了一种可检测野生型麝和基因驱动麝的 eDNA 检测方法。我们展示了一种检测方法的成功开发，在这种方法中，环境样本可用于检测野生型入侵蕈蚊以及野生型与基因驱动蕈蚊的相对密度：结论：从环境样本中检测野生型蕈蚊和基因驱动蕈蚊（tCRISPR）的方法的开发拓展了环境 DNA 的用途。这种方法提供了一种工具，可立即用于世界各地的野生麝香猫入侵管理。这是利用环境样本监测基因生物控制构建物的概念验证。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BMC Biology 生物-生物学

CiteScore

7.80

自引率

1.90%

发文量

260

审稿时长

3 months

期刊介绍： BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.