Implications of a cheliceral axial duplication in Tetragnatha versicolor (Araneae: Tetragnathidae) for arachnid deuterocerebral appendage development.

IF 0.8 3区生物学 Q4 CELL BIOLOGY

Development Genes and Evolution Pub Date : 2021-12-01 Epub Date: 2021-06-14 DOI:10.1007/s00427-021-00678-9

Darko D Cotoras, Pedro de S Castanheira, Prashant P Sharma

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引用次数: 1

Abstract

The homology of the arachnid chelicera with respect to other head appendages in Panarthropoda has long been debated. Gene expression data and the re-interpretation of early transitional fossils have supported the homology of the deutocerebrum and its associated appendages, implying a homology between primary antennae (mandibulates), chelicerae (euchelicerates), and chelifores (sea spiders). Nevertheless, comparatively little is known about the mechanistic basis of proximo-distal (PD) axis induction in chelicerates, much less the basis for cheliceral fate specification. Here, we describe a new cheliceral teratology in the spider Tetragnatha versicolor Walckenaer, 1841, which consists on a duplication of the PD axis of the left chelicera associated with a terminal secondary schistomely on the fang of the lower axis. This duplication offers clues as to potential shared mechanisms of PD axis formation in the chelicera. We review the state of knowledge on PD axis induction mechanisms in arthropods and identify elements of gene regulatory networks that are key for future functional experiments of appendage development in non-insect model systems. Such investigations would allow a better understanding of PD axis induction of modified and poorly studied arthropod limbs (e.g., chelicerae, chelifores, and ovigers).

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彩色四角蛛(蜘蛛目:四角蛛科)化学轴向复制对蛛形动物后脑附属物发育的影响。

在全节肢动物中，蛛形纲动物的螯肢与其他头部附属物的同源性一直存在争议。基因表达数据和对早期过渡性化石的重新解释支持了下脑及其相关附属物的同源性，这意味着初级触角(下颌骨)、螯肢(拟螯肢)和螯肢(海蜘蛛)之间存在同源性。然而，相对而言，人们对螯合动物近端-远端(PD)轴诱导的机制基础知之甚少，更不用说对螯合命运规范的基础了。在这里，我们描述了蜘蛛Tetragnatha versicolor Walckenaer, 1841的一种新的化学致畸，它由左螯虫的PD轴的重复组成，并与下轴的尖上的末端次生血吸虫相关联。这种重复提供了线索，为潜在的共同机制的PD轴形成的chelicera。我们回顾了节肢动物PD轴诱导机制的知识状态，并确定了基因调控网络的元件，这些元件是未来非昆虫模型系统附属物发育功能实验的关键。这样的研究将有助于更好地理解改良的和研究较少的节肢动物肢体(如螯肢、螯肢和螯肢)的PD轴诱导。

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来源期刊

Development Genes and Evolution 生物-发育生物学

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Development Genes and Evolution publishes high-quality reports on all aspects of development biology and evolutionary biology. The journal reports on experimental and bioinformatics work at the systemic, cellular and molecular levels in the field of animal and plant systems, covering key aspects of the following topics: Embryological and genetic analysis of model and non-model organisms Genes and pattern formation in invertebrates, vertebrates and plants Axial patterning, embryonic induction and fate maps Cellular mechanisms of morphogenesis and organogenesis Stem cells and regeneration Functional genomics of developmental processes Developmental diversity and evolution Evolution of developmentally relevant genes Phylogeny of animals and plants Microevolution Paleontology.