Functional genomics of supergene-controlled behavior in the white-throated sparrow.

Faculty reviews Pub Date : 2021-09-29 eCollection Date: 2021-01-01 DOI:10.12703/r-01-000003

Peter W H Holland, Chris D Jiggins, Miriam Liedvogel, Graham Warren, Yannick Wurm

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Abstract

Supergenes are regions of suppressed recombination that may span hundreds of genes and can control variation in key ecological phenotypes. Since genetic analysis is made impossible by the absence of recombination between genes, it has been difficult to establish how individual genes within these regions contribute to supergene-controlled phenotypes. The white-throated sparrow is a classic example in which a supergene controls behavioral differences as well as distinct coloration that determines mate choice. A landmark study now demonstrates that differences between supergene variants in the promoter sequences of a hormone receptor gene change its expression and control changes in behavior. To unambiguously establish the link between genotype and phenotype, the authors used antisense oligonucleotides to alter the level of gene expression in a focal brain region targeted through a cannula. The study showcases a powerful approach to the functional genomic manipulation of a wild vertebrate species.

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白喉麻雀超基因控制行为的功能基因组学。

超基因是被抑制重组的区域，可能跨越数百个基因，可以控制关键生态表型的变异。由于基因之间缺乏重组，遗传分析变得不可能，因此很难确定这些区域内的单个基因如何促成超基因控制的表型。白喉麻雀是一个典型的例子，在这个例子中，一种超基因控制着行为差异，以及决定配偶选择的独特颜色。一项具有里程碑意义的研究表明，激素受体基因启动子序列的超基因变体之间的差异改变了其表达并控制了行为的变化。为了明确地建立基因型和表型之间的联系，作者使用反义寡核苷酸通过套管靶向改变局灶性脑区域的基因表达水平。这项研究展示了一种对野生脊椎动物物种进行功能性基因组操作的有力方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Faculty reviews

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