降低行为测定中的噪声：成年斑马鱼运动中的性别和年龄。

Reducing the noise in behavioral assays: sex and age in adult zebrafish locomotion.

机构信息

Lincoln K-8 Choice School, Rochester, Minnesota, USA.

出版信息

Zebrafish. 2012 Dec;9(4):191-4. doi: 10.1089/zeb.2012.0764.

DOI:10.1089/zeb.2012.0764

PMID:23244690

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3528087/

Abstract

Many assays are used in animal model systems to measure specific human disease-related behaviors. The use of both adult and larval zebrafish as a behavioral model is gaining popularity. As this work progresses and potentially translates into new treatments, we must do our best to improve the sensitivity of these assays by reducing confounding factors. Scientists who use the mouse model system have demonstrated that sex and age can influence a number of behaviors. As a community, they have moved to report the age and sex of all animals used in their studies. Zebrafish work does not yet carry the same mandate. In this study, we evaluated sex and age differences in locomotion behavior. We found that age was a significant factor in locomotion, as was sex within a given age group. In short, as zebrafish age, they appear to show less base level locomotion. With regard to sex, younger (10 months) zebrafish showed more locomotion in males, while older zebrafish (22 months) showed more movement in females. These findings have led us to suggest that those using the zebrafish for behavioral studies control for age and sex within their experimental design and report these descriptors in their methods.

摘要

许多检测方法被应用于动物模型系统，以测量与特定人类疾病相关的特定行为。使用成年和幼虫斑马鱼作为行为模型正变得越来越流行。随着这项工作的进展并有可能转化为新的治疗方法，我们必须尽最大努力通过减少混杂因素来提高这些检测方法的灵敏度。使用小鼠模型系统的科学家已经证明，性别和年龄会影响许多行为。作为一个社区，他们已经开始报告其研究中使用的所有动物的年龄和性别。斑马鱼研究尚未有同样的要求。在这项研究中，我们评估了运动行为中的性别和年龄差异。我们发现，年龄是运动的一个重要因素，而在特定年龄组内，性别也是一个因素。简而言之，随着斑马鱼年龄的增长，它们的基础运动水平似乎会降低。至于性别，年龄较小的（10 个月）斑马鱼雄性的运动性更强，而年龄较大的（22 个月）斑马鱼雌性的运动性更强。这些发现使我们建议那些使用斑马鱼进行行为研究的人在实验设计中控制年龄和性别，并在其方法中报告这些描述符。

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