蚯蚓杂交种的基因组和羽毛变异

The Auk Pub Date : 2020-07-06 DOI:10.1093/auk/ukaa027
Marcella D. Baiz, G. Kramer, H. Streby, Scott A. Taylor, I. Lovette, D. P. Toews
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引用次数: 12

摘要

具有不同性状组合的杂交种可用于鉴定对物种身份和识别具有重要意义的表型性状的基因组区域。在这里,我们探讨了基因组与蓝翅莺与金翅莺(Vermivora cyanoptera x V. chrysoptera)杂交后代羽毛变异之间的联系,这些杂交后代传统上被分为两种不同的类型。“劳伦斯”的杂交体整体呈黄色,与蓝翅林莺相似,但表现出金翅林莺的黑色喉部和面罩。“布鲁斯特”的杂交品种与金翅林莺相似,但没有黑色的喉部和面罩,有时腹部有黄色。先前的研究假设:(1)第一代杂交品种为Brewster型,可以通过其腹部的黄色量来区分;(2)喉贴/面罩表型符合孟德尔遗传,受agouti信号蛋白(ASIP)基因附近位点变异控制。我们使用亲本和杂交个体的全基因组重测序来解决这些假设。我们发现,布鲁斯特杂交品种的基因组杂交指数得分表明,这种表型可以由亲本物种的大多数祖先产生,它们的羽毛在类胡萝卜素色素沉着水平上有所不同,并且多年捕获的个体随着时间的推移,黄色一直变少。类胡萝卜素色素沉着的变化与基因组杂交指数得分关系不大,因此与先前的假设不一致,即第一代杂交品种可以通过羽毛中的黄色数量来区分。我们的研究结果还证实,ASIP附近的变异是喉贴表型的基础,我们将其细化到编码序列上游的约10-15 Kb区域。总的来说,我们的研究结果支持这样一种观点,即传统的杂交分类,无论是劳伦斯还是布鲁斯特,都过度简化了类胡萝卜素色素沉积的连续变化,及其推断的潜在遗传基础,主要基于一个离散的性状,即喉咙贴片/面罩表型。摘要利用杂交林莺的全基因组序列,研究了林莺羽毛色素沉着的遗传基础和遗传机制。黄色类胡萝卜素色素沉着在杂交种之间存在差异,随年份的增加而减少,并且与混合程度没有明显的关系,表明其遗传基础复杂。ASIP基因先前与黑喉色素沉着有关,我们将因果区域细化到编码序列上游约10-15 Kb。我们的结论是,在这个系统中的第一代杂交种可能不容易区分他们的程度类胡萝卜素色素沉着。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genomic and plumage variation in Vermivora hybrids
ABSTRACT Hybrids with different combinations of traits can be used to identify genomic regions that underlie phenotypic characters important to species identity and recognition. Here, we explore links between genomic and plumage variation in Blue-winged Warbler x Golden-winged Warbler (Vermivora cyanoptera x V. chrysoptera) hybrids, which have traditionally been categorized into 2 discrete types. “Lawrence's” hybrids are yellow overall, similar to Blue-winged Warblers, but exhibit the black throat patch and face mask of Golden-winged Warblers. “Brewster's” hybrids are similar to Golden-winged Warblers, but lack the black throat patch and face mask, and sometimes have yellow on their underparts. Previous studies hypothesized that (1) first generation hybrids are of the Brewster's type and can be distinguished by the amount of yellow on their underparts, and that (2) the throat patch/mask phenotype is consistent with Mendelian inheritance and controlled by variation in a locus near the Agouti-signaling protein (ASIP) gene. We addressed these hypotheses using whole genome re-sequencing of parental and hybrid individuals. We found that Brewster's hybrids had genomic hybrid index scores indicating this phenotype can arise by majority ancestry from either parental species, that their plumage varied in levels of carotenoid pigmentation, and individuals captured in multiple years grew consistently less yellow over time. Variation in carotenoid pigmentation showed little relationship with genomic hybrid index score and is thus inconsistent with previous hypotheses that first generation hybrids can be distinguished by the amount of yellow in their plumage. Our results also confirm that variation near ASIP underlies the throat patch phenotype, which we refined to an ∼10–15 Kb region upstream of the coding sequence. Overall, our results support the notion that traditional categorization of hybrids as either Lawrence's or Brewster's oversimplifies continuous variation in carotenoid pigmentation, and its inferred underlying genetic basis, and is based primarily on one discrete trait, which is the throat patch/mask phenotype. LAY SUMMARY We used whole genome sequences of hybrid Vermivora warblers to examine the genetic basis and inheritance of plumage pigmentation. Yellow carotenoid pigmentation varied among hybrids, decreased between years, and showed no clear relationship with degree of admixture, suggesting a complex genetic basis. The ASIP gene was previously linked to melanic (black) throat pigmentation and we refined the causal region to ∼10–15 Kb upstream of the coding sequence. We conclude that first generation hybrids in this system may not be readily distinguished by their degree of carotenoid pigmentation.
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