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高通量表型分析在小鼠回避学习中的应用可区分不同基因型并鉴定出一个新基因。

High-throughput phenotyping of avoidance learning in mice discriminates different genotypes and identifies a novel gene.

机构信息

Department of Functional Genomics, Center for Neurogenomics and Cognitive Research, Neuroscience Campus Amsterdam, VU University Amsterdam and VU Medical Center, Amsterdam, The Netherlands.

出版信息

Genes Brain Behav. 2012 Oct;11(7):772-84. doi: 10.1111/j.1601-183X.2012.00820.x. Epub 2012 Aug 2.

Abstract

Recognizing and avoiding aversive situations are central aspects of mammalian cognition. These abilities are essential for health and survival and are expected to have a prominent genetic basis. We modeled these abilities in eight common mouse inbred strains covering ∼75% of the species' natural variation and in gene-trap mice (>2000 mice), using an unsupervised, automated assay with an instrumented home cage (PhenoTyper) containing a shelter with two entrances. Mice visited this shelter for 20-1200 times/24 h and 71% of all mice developed a significant and often strong preference for one entrance. Subsequently, a mild aversive stimulus (shelter illumination) was automatically delivered when mice used their preferred entrance. Different genotypes developed different coping strategies. Firstly, the number of entries via the preferred entrance decreased in DBA/2J, C57BL/6J and 129S1/SvImJ, indicating that these genotypes associated one specific entrance with the aversive stimulus. Secondly, mice started sleeping outside (C57BL/6J, DBA/2J), indicating they associated the shelter, in general, with the aversive stimulus. Some mice showed no evidence for an association between the entrance and the aversive light, but did show markedly shorter shelter residence times in response to illumination, indicating they did perceive illumination as aversive. Finally, using this assay, we screened 43 different mutants, which yielded a novel gene, specc1/cytospinB. This mutant showed profound and specific delay in avoidance learning. Together, these data suggest that different genotypes express distinct learning and/or memory of associations between shelter entrance and aversive stimuli, and that specc1/cytospinB is involved in this aspect of cognition.

摘要

识别和避免厌恶情境是哺乳动物认知的核心方面。这些能力对健康和生存至关重要,预计它们具有显著的遗传基础。我们使用一种无监督、自动化的测试方法,使用带有两个入口的避难所的仪器化家庭笼(PhenoTyper),对覆盖了约 75%物种自然变异的八个常见近交系小鼠和基因陷阱小鼠(>2000 只)进行了这些能力的建模。小鼠在 24 小时内会访问这个避难所 20-1200 次,其中 71%的小鼠对一个入口产生了显著且通常强烈的偏好。随后,当小鼠使用其偏好的入口时,会自动施加一个轻微的厌恶刺激(避难所照明)。不同的基因型发展出不同的应对策略。首先,DBA/2J、C57BL/6J 和 129S1/SvImJ 中的入口数量减少,表明这些基因型将一个特定的入口与厌恶刺激联系起来。其次,小鼠开始在外面睡觉(C57BL/6J、DBA/2J),表明它们将避难所一般与厌恶刺激联系起来。一些小鼠没有表现出入口与厌恶光之间存在关联的证据,但在照明时明显缩短了在避难所中的停留时间,表明它们确实将照明视为厌恶。最后,我们使用该检测方法对 43 种不同的突变体进行了筛查,发现了一个新的基因 specc1/cytospinB。该突变体表现出明显且特异性的回避学习延迟。总的来说,这些数据表明,不同的基因型表达了对避难所入口和厌恶刺激之间关联的不同学习和/或记忆,并且 specc1/cytospinB 参与了这一方面的认知。

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