长尾雀杂交系统中受选择青睐的黄喙颜色等位基因的扩散。

IF 8.1 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Current Biology Pub Date : 2024-11-04 DOI:10.1016/j.cub.2024.10.019
Daniel M Hooper, Callum S McDiarmid, Matthew J Powers, Nicholas M Justyn, Marek Kučka, Nathan S Hart, Geoffrey E Hill, Peter Andolfatto, Yingguang Frank Chan, Simon C Griffith
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引用次数: 0

摘要

类胡萝卜素色素赋予鸟类和其他脊椎动物黄色和红色。尽管类胡萝卜素色素在社会信号传递和性选择中非常重要,但我们对类胡萝卜素装饰在自然界中如何演变的了解仍然有限。在这里,我们研究了长尾雀(Poephila acuticauda),这是一种澳大利亚鸣禽,有一个黄嘴的西部亚种 acuticauda 和一个红嘴的东部亚种 hecki,它们在分布区重叠的地方杂交。我们发现,黄嘴的原因是 C(4)- 氧化作用的丧失,从而阻止了黄色食物类胡萝卜素转化为红色。结合从野生采样雀类和实验室杂交雀类中收集的喙颜色的联读基因组测序和反射分光光度法测量结果,我们确定了四个基因位点,它们共同解释了这一性状中 53% 的变异。影响最大的两个基因位点包含 CYP2J19 和 TTC39B,前者是产生红色类胡萝卜素的必需酶,后者是类胡萝卜素代谢的促进因子。蛋白编码变化的稀少和相关上游变异的丰富表明,C(4)-氧化的丧失是顺式调节进化的结果。进化谱系重建表明,红嘴表型是祖先的,CYP2J19 和 TTC39B 的黄色等位基因大约在 100 千年前首次出现并固定在 acuticauda 中。随后,黄色等位基因在不到 5 千年的时间内导入hecki。在所有颜色位点上,acuticauda 衍生的变体都显示出选择性横扫的证据,这意味着黄色喙的着色受到了自然选择的青睐。我们的研究说明了黄色和红色之间的进化转变是如何通过连续的选择性事件作用于几个相互作用基因的调控变化来实现的。
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Spread of yellow-bill-color alleles favored by selection in the long-tailed finch hybrid system.

Carotenoid pigments produce the yellow and red colors of birds and other vertebrates. Despite their importance in social signaling and sexual selection, our understanding of how carotenoid ornamentation evolves in nature remains limited. Here, we examine the long-tailed finch Poephila acuticauda, an Australian songbird with a yellow-billed western subspecies acuticauda and a red-billed eastern subspecies hecki, which hybridize where their ranges overlap. We found that yellow bills can be explained by the loss of C(4)-oxidation, thus preventing yellow dietary carotenoids from being converted to red. Combining linked-read genomic sequencing and reflectance spectrophotometry measurements of bill color collected from wild-sampled finches and laboratory crosses, we identify four loci that together explain 53% of variance in this trait. The two loci of largest effect contain the genes CYP2J19, an essential enzyme for producing red carotenoids, and TTC39B, an enhancer of carotenoid metabolism. A paucity of protein-coding changes and an enrichment of associated upstream variants suggest that the loss of C(4)-oxidation results from cis-regulatory evolution. Evolutionary genealogy reconstruction indicates that the red-billed phenotype is ancestral and that yellow alleles at CYP2J19 and TTC39B first arose and fixed in acuticauda approximately 100 kya. Yellow alleles subsequently introgressed into hecki less than 5 kya. Across all color loci, acuticauda-derived variants show evidence of selective sweeps, implying that yellow bill coloration has been favored by natural selection. Our study illustrates how evolutionary transitions between yellow and red coloration can be achieved by successive selective events acting on regulatory changes at a few interacting genes.

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来源期刊
Current Biology
Current Biology 生物-生化与分子生物学
CiteScore
11.80
自引率
2.20%
发文量
869
审稿时长
46 days
期刊介绍: Current Biology is a comprehensive journal that showcases original research in various disciplines of biology. It provides a platform for scientists to disseminate their groundbreaking findings and promotes interdisciplinary communication. The journal publishes articles of general interest, encompassing diverse fields of biology. Moreover, it offers accessible editorial pieces that are specifically designed to enlighten non-specialist readers.
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