Genomic resources and toolkits for developmental study of whip spiders (Amblypygi) provide insights into arachnid genome evolution and antenniform leg patterning.

IF 4.1 2区生物学 Q1 DEVELOPMENTAL BIOLOGY Evodevo Pub Date : 2020-08-28 eCollection Date: 2020-01-01 DOI:10.1186/s13227-020-00163-w

Guilherme Gainett, Prashant P Sharma

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Abstract

Background: The resurgence of interest in the comparative developmental study of chelicerates has led to important insights, such as the discovery of a genome duplication shared by spiders and scorpions, inferred to have occurred in the most recent common ancestor of Arachnopulmonata (a clade comprising the five arachnid orders that bear book lungs). Nonetheless, several arachnid groups remain understudied in the context of development and genomics, such as the order Amblypygi (whip spiders). The phylogenetic position of Amblypygi in Arachnopulmonata posits them as an interesting group to test the incidence of the proposed genome duplication in the common ancestor of Arachnopulmonata, as well as the degree of retention of duplicates over 450 Myr. Moreover, whip spiders have their first pair of walking legs elongated and modified into sensory appendages (a convergence with the antennae of mandibulates), but the genetic patterning of these antenniform legs has never been investigated.

Results: We established genomic resources and protocols for cultivation of embryos and gene expression assays by in situ hybridization to study the development of the whip spider Phrynus marginemaculatus. Using embryonic transcriptomes from three species of Amblypygi, we show that the ancestral whip spider exhibited duplications of all ten Hox genes. We deploy these resources to show that paralogs of the leg gap genes dachshund and homothorax retain arachnopulmonate-specific expression patterns in P. marginemaculatus. We characterize the expression of leg gap genes Distal-less, dachshund-1/2 and homothorax-1/2 in the embryonic antenniform leg and other appendages, and provide evidence that allometry, and by extension the antenniform leg fate, is specified early in embryogenesis.

Conclusion: This study is the first step in establishing P. marginemaculatus as a chelicerate model for modern evolutionary developmental study, and provides the first resources sampling whip spiders for comparative genomics. Our results suggest that Amblypygi share a genome duplication with spiders and scorpions, and set up a framework to study the genetic specification of antenniform legs. Future efforts to study whip spider development must emphasize the development of tools for functional experiments in P. marginemaculatus.

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用于鞭毛蛛（Amblypygi）发育研究的基因组资源和工具包为蛛形纲基因组进化和触角腿模式化提供了见解。

背景：人们对螯足类比较发育研究的兴趣再次升温，并由此获得了一些重要发现，例如发现了蜘蛛和蝎子共有的基因组复制，推断其发生在蛛形纲（Arachnopulmonata，由具有书肺的五个蛛形纲组成的一个支系）最近的共同祖先身上。然而，在发育和基因组学方面，一些蛛形纲类群的研究仍然不足，例如鞭蛛目（Amblypygi）。Amblypygi在蛛形纲中的系统发育位置使其成为一个有趣的类群，可用于检验蛛形纲共同祖先中基因组重复的发生率，以及重复基因在450 Myr以上的保留程度。此外，鞭蛛的第一对步行腿被拉长并被改造成感觉器官（与下颌动物的触角趋同），但这些触角状腿的遗传模式从未被研究过：结果：我们建立了基因组资源和胚胎培养规程，并通过原位杂交进行了基因表达测定，以研究鞭毛蛛的发育过程。我们利用三个Amblypygi物种的胚胎转录组表明，鞭毛蛛祖先的十个Hox基因都有重复。我们利用这些资源表明，腿间隙基因 dachshund 和 homothorax 的旁系亲属在 P. marginemaculatus 中保留了蛛形纲特有的表达模式。我们描述了腿间隙基因Distal-less、dachshund-1/2和homothorax-1/2在胚胎触角腿和其他附肢中的表达特征，并提供了证据，证明异型性以及触角腿的命运在胚胎发生早期就已确定：这项研究是将 P. marginemaculatus 确立为现代进化发育研究的螯足动物模型的第一步，并为比较基因组学提供了第一批鞭蛛样本资源。我们的研究结果表明，Amblypygi与蜘蛛和蝎子共享一个基因组复制，并为研究触角腿的基因规范建立了一个框架。今后研究鞭毛蛛发育的工作必须重视开发工具，以便在P. marginemaculatus中进行功能实验。

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来源期刊

Evodevo EVOLUTIONARY BIOLOGY-DEVELOPMENTAL BIOLOGY

CiteScore

7.50

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： EvoDevo publishes articles on a broad range of topics associated with the translation of genotype to phenotype in a phylogenetic context. Understanding the history of life, the evolution of novelty and the generation of form, whether through embryogenesis, budding, or regeneration are amongst the greatest challenges in biology. We support the understanding of these processes through the many complementary approaches that characterize the field of evo-devo. The focus of the journal is on research that promotes understanding of the pattern and process of morphological evolution. All articles that fulfill this aim will be welcome, in particular: evolution of pattern; formation comparative gene function/expression; life history evolution; homology and character evolution; comparative genomics; phylogenetics and palaeontology