鸣禽记忆和学习的基因组学。

The genomics of memory and learning in songbirds.

机构信息

Biological and Experimental Psychology Division, School of Biological and Chemical Sciences, Queen Mary University of London, London E1 4NS, United Kingdom; email:

出版信息

Annu Rev Genomics Hum Genet. 2013;14:45-65. doi: 10.1146/annurev-genom-090711-163809. Epub 2013 Jul 22.

DOI:10.1146/annurev-genom-090711-163809

PMID:23875795

Abstract

Songbirds have unique value as a model for memory and learning. In their natural social life, they communicate through vocalizations that they must learn to produce and recognize. Song communication elicits abrupt changes in gene expression in regions of the forebrain responsible for song perception and production--what is the functional significance of this genomic response? For 20 years, the focus of research was on just a few genes [primarily ZENK, now known as egr1 (early gene response 1)]. Recently, however, DNA microarrays have been developed and applied to songbird behavioral research, and in 2010 the initial draft assembly of the zebra finch genome was published. Together, these new data reveal that the genomic involvement in song processing is far more complex than anticipated. The concepts of neurogenomic computation and biological embedding are introduced as frameworks for future research.

摘要

鸣禽作为记忆和学习的模型具有独特的价值。在它们的自然社交生活中，它们通过必须学习产生和识别的叫声进行交流。鸣禽的交流引发了负责鸣唱感知和产生的前脑区域中基因表达的突然变化——这种基因组反应的功能意义是什么？20 年来，研究的重点一直是少数几个基因[主要是 ZENK，现在称为 egr1（早期基因反应 1）]。然而，最近开发了 DNA 微阵列并将其应用于鸣禽行为研究，2010 年发表了斑马雀基因组的初步草案组装。这些新数据表明，参与鸣唱处理的基因组比预期的要复杂得多。神经基因组计算和生物嵌入的概念被引入作为未来研究的框架。

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鸣禽记忆和学习的基因组学。

The genomics of memory and learning in songbirds.

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