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果蝇的短期记忆受一般和特定遗传系统的控制。

Short-term memories in Drosophila are governed by general and specific genetic systems.

机构信息

Division of Biological Sciences, University of Missouri, Columbia, Missouri 65211, USA.

出版信息

Learn Mem. 2010 Apr 23;17(5):246-51. doi: 10.1101/lm.1706110. Print 2010 May.

Abstract

In a dynamic environment, there is an adaptive value in the ability of animals to acquire and express memories. That both simple and complex animals can learn is therefore not surprising. How animals have solved this problem genetically and anatomically probably lies somewhere in a range between a single molecular/anatomical mechanism that applies to all situations and a specialized mechanism for each learning situation. With an intermediate level of nervous system complexity, the fruit fly Drosophila has both general and specific resources to support different short-term memories. Some biochemical/cellular mechanisms are common between learning situations, indicating that flies do not have a dedicated system for each learning context. The opposite possible extreme does not apply to Drosophila either. Specialization in some biochemical and anatomical terms suggests that there is not a single learning mechanism that applies to all conditions. The distributed basis of learning in Drosophila implies that these systems were independently selected.

摘要

在动态环境中,动物具备获取和表达记忆的能力具有适应价值。因此,简单和复杂的动物都能学习并不奇怪。动物在遗传和解剖学上是如何解决这个问题的,可能介于适用于所有情况的单一分子/解剖学机制和针对每种学习情况的专门机制之间。果蝇具有中间水平的神经系统复杂性,既有支持不同短期记忆的通用资源,也有特定资源。一些生化/细胞机制在学习情况之间是共同的,这表明果蝇没有针对每种学习环境的专用系统。这种情况也不适用于果蝇的相反极端情况。在某些生化和解剖学方面的专业化表明,不存在适用于所有条件的单一学习机制。果蝇学习的分布式基础意味着这些系统是独立选择的。

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