果蝇记忆的踪迹。

Traces of Drosophila memory.

机构信息

Department of Neuroscience, The Scripps Research Institute Florida, Jupiter, FL 33410, USA.

出版信息

Neuron. 2011 Apr 14;70(1):8-19. doi: 10.1016/j.neuron.2011.03.012.

DOI:10.1016/j.neuron.2011.03.012

PMID:21482352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3374581/

Abstract

Studies using functional cellular imaging of living flies have identified six memory traces that form in the olfactory nervous system after conditioning with odors. These traces occur in distinct nodes of the olfactory nervous system, form and disappear across different windows of time, and are detected in the imaged neurons as increased calcium influx or synaptic release in response to the conditioned odor. Three traces form at or near acquisition and coexist with short-term behavioral memory. One trace forms with a delay after learning and coexists with intermediate-term behavioral memory. Two traces form many hours after acquisition and coexist with long-term behavioral memory. The transient memory traces may support behavior across the time windows of their existence. The experimental approaches for dissecting memory formation in the fly, ranging from the molecular to the systems, make it an ideal system for elucidating the logic by which the nervous system organizes and stores different temporal forms of memory.

摘要

利用活体苍蝇的功能细胞成像研究已经确定了六个记忆痕迹，这些痕迹在经过气味条件作用后形成于嗅觉神经系统中。这些痕迹出现在嗅觉神经系统的不同节点中，在不同的时间窗口中形成和消失，并在成像神经元中作为钙内流或突触释放的增加来检测，以响应条件化气味。三个痕迹在获得或接近获得时形成，并与短期行为记忆共存。一个痕迹在学习后延迟形成，并与中期行为记忆共存。两个痕迹在获得后数小时形成，并与长期行为记忆共存。瞬时记忆痕迹可能在其存在的时间窗口内支持行为。在苍蝇中解析记忆形成的实验方法从分子到系统范围都有，这使其成为阐明神经系统组织和存储不同时间形式记忆的逻辑的理想系统。

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