旧视觉系统的新认识:1758年(鳃足目,无肢目)卤虾复眼和视神经节的结构与发育。

M. Wildt, S. Harzsch
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引用次数: 40

摘要

与对十足甲壳类动物的研究相比,对昆虫介面甲壳类动物视觉系统的发育了解甚少。然而,节肢动物视觉系统的结构进化是节肢动物关系新争论的一个重要话题,而昆虫介面甲壳类动物在这一讨论中起着关键作用。因此,昆虫介虫视觉系统的结构和个体发育数据可能为我们对节肢动物系统发育的理解提供新的方面。因此,我们研究了1758年Artemia salina Linnaeus(甲壳纲、昆虫纲、鳃足纲、Anostraca)视神经球发育过程中神经元干细胞的增殖(体内溴氧脱氧尿苷的掺入)和突触蛋白的发育表达(针对突触蛋白的免疫组织化学)。成人视觉系统的形态是在塑料埋入标本的连续切片检查。我们的研究结果表明,产生视觉系统(复眼和两个视神经节)的细胞物质是由排列在三个带状增殖区的神经干细胞的有丝分裂活动贡献的。神经节层和外髓的突触蛋白样免疫反应仅在复眼的胶原形成后才开始,这表明两种视神经球的出现落后于这些干细胞的增殖作用。将盐藻的神经发生与甲壳类动物的类似过程进行了比较,并讨论了可能的系统发育意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A new look at an old visual system: structure and development of the compound eyes and optic ganglia of the brine shrimp Artemia salina Linnaeus, 1758 (Branchiopoda, anostraca).
Compared to research carried out on decapod crustaceans, the development of the visual system in representatives of the entomostracan crustaceans is poorly understood. However, the structural evolution of the arthropod visual system is an important topic in the new debate on arthropod relationships, and entomostracan crustaceans play a key role in this discussion. Hence, data on structure and ontogeny of the entomostracan visual system are likely to contribute new aspects to our understanding of arthropod phylogeny. Therefore, we explored the proliferation of neuronal stem cells (in vivo incorporation of bromodeoxyuridine) and the developmental expression of synaptic proteins (immunohistochemistry against synapsins) in the developing optic neuropils of the brine shrimp Artemia salina Linnaeus, 1758 (Crustacea, Entomostraca, Branchiopoda, Anostraca) from hatching to adulthood. The morphology of the adult visual system was examined in serial sections of plastic embedded specimens. Our results indicate that the cellular material that gives rise to the visual system (compound eyes and two optic ganglia) is contributed by the mitotic activity of neuronal stem cells that are arranged in three band-shaped proliferation zones. Synapsin-like immunoreactivity in the lamina ganglionaris and the medulla externa initiated only after the anlagen of the compound eyes had already formed, suggesting that the emergence of the two optic neuropils lags behind the proliferative action of these stem cells. Neurogenesis in A. salina is compared to similar processes in malacostracan crustaceans and possible phylogenetic implications are discussed.
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