From swimming towards sessility in two metamorphoses – the drastic changes in structure and function of the nervous system of the bay barnacle Amphibalanus improvisus (Crustacea, Thecostraca, Cirripedia) during development

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2020-06-02 DOI:10.1163/18759866-bja10003
Paul Kalke, T. Frase, S. Richter
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引用次数: 3

Abstract

Knowledge about the development of the nervous system in cirripeds is limited, particularly with regard to the changes that take place during the two metamorphoses their larvae undergo. This study delivers the first detailed description of the development of the nervous system in a cirriped species, Amphibalanus improvisus by using immunohistochemical labeling against acetylated alpha-tubulin, and confocal laser scanning microscopy. The development of the nervous system in the naupliar stages corresponds largely to that in other crustaceans. As development progresses, the protocerebral sensory organs differentiate and the intersegmental nerves forming the complex peripheral nervous system appear, innervating the sensory structures of the cephalic shield. During metamorphosis into a cypris the lateral sides of the cephalic shield fold down into a bilateral carapace, which leads to a reorganization of the peripheral nervous system. The syncerebrum of the cypris exhibits the highest degree of complexity of all developmental stages, innervating the frontal filaments, nauplius eye, compound eyes and the antennules. During settlement, when the second metamorphosis occur, the closely associated frontal filaments and compound eyes are shed together with the cuticle of the carapace and the antennules. In adults, the syncerebral structures are reduced while the ventral nerve cord and the peripheral nervous system increase in complexity. The peripheral nervous system plays an important role in processing sensory input and also in settlement. In summary, through the larval development we observed a structural and thus also functional increase of complexity in favor of the peripheral nervous system and the ventral nerve cord.
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在两个蜕变中从游泳到成熟-海湾藤壶(甲壳纲,海螺纲,Cirripedia)在发育过程中神经系统结构和功能的剧烈变化
关于卷须类神经系统发育的知识是有限的,尤其是关于其幼虫经历的两次蜕变过程中发生的变化。这项研究通过使用乙酰化α-微管蛋白的免疫组织化学标记和共聚焦激光扫描显微镜,首次详细描述了卷熟物种即兴两栖动物的神经系统发育。无节幼体阶段神经系统的发育与其他甲壳类动物的发育基本一致。随着发育的进展,原脑感觉器官分化,形成复杂外周神经系统的节间神经出现,支配头盾的感觉结构。在蜕变为鲤鱼的过程中,头盾的侧面向下折叠成双侧甲壳,从而导致周围神经系统的重组。塞浦路斯的合胞体在所有发育阶段都表现出最高程度的复杂性,支配额丝、无节复眼、复眼和触角。在定居期间,当第二次变态发生时,紧密相关的额丝和复眼与甲壳和触角的角质层一起脱落。在成年人中,合椎结构减少,而腹神经索和外周神经系统的复杂性增加。外周神经系统在处理感觉输入和定居方面发挥着重要作用。总之,通过幼虫的发育,我们观察到结构和功能的复杂性增加,有利于周围神经系统和腹神经索。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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