Knock down to level up: Reframing RNAi for invertebrate ecophysiology

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jacqueline E. Lebenzon , Jantina Toxopeus
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引用次数: 0

Abstract

Comparative ecophysiologists strive to understand physiological problems in non-model organisms, but molecular tools such as RNA interference (RNAi) are under-used in our field. Here, we provide a framework for invertebrate ecophysiologists to use RNAi to answer questions focused on physiological processes, rather than as a tool to investigate gene function. We specifically focus on non-model invertebrates, in which the use of other genetic tools (e.g., genetic knockout lines) is less likely. We argue that because RNAi elicits a temporary manipulation of gene expression, and resources to carry out RNAi are technically and financially accessible, it is an effective tool for invertebrate ecophysiologists. We cover the terminology and basic mechanisms of RNA interference as an accessible introduction for “non-molecular” physiologists, include a suggested workflow for identifying RNAi gene targets and validating biologically relevant gene knockdowns, and present a hypothesis-testing framework for using RNAi to answer common questions in the realm of invertebrate ecophysiology. This review encourages invertebrate ecophysiologists to use these tools and workflows to explore physiological processes and bridge genotypes to phenotypes in their animal(s) of interest.

Abstract Image

击倒提升:为无脊椎动物生态生理学重塑 RNAi。
比较生态生理学家努力了解非模式生物的生理问题,但 RNA 干扰(RNAi)等分子工具在我们的领域使用不足。在这里,我们为无脊椎动物生态生理学家提供了一个框架,让他们利用 RNAi 来回答生理过程方面的问题,而不是将其作为研究基因功能的工具。我们特别关注非模式无脊椎动物,在这些动物中使用其他遗传工具(如基因敲除品系)的可能性较小。我们认为,由于 RNAi 能够暂时操纵基因表达,而且实施 RNAi 的资源在技术上和资金上都可以获得,因此它是无脊椎动物生态生理学家的有效工具。我们介绍了 RNA 干扰的术语和基本机制,为 "非分子 "生理学家提供了通俗易懂的入门知识,包括识别 RNAi 基因靶标和验证生物相关基因敲除的建议工作流程,并提出了使用 RNAi 回答无脊椎动物生态生理学领域常见问题的假设检验框架。这篇综述鼓励无脊椎动物生态生理学家使用这些工具和工作流程来探索生理过程,并在他们感兴趣的动物的基因型与表型之间架起桥梁。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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