Harzsch Steffen, Viertel Caroline
Department of Cytology and Evolutionary Biology, Zoological Institute and Museum, University of Greifswald, Greifswald, Germany.
Methods Mol Biol. 2020;2047:271-291. doi: 10.1007/978-1-4939-9732-9_15.
In the field of neurosciences, the crayfish nervous system is an important model for understanding how arthropods process sensory stimuli and generate specific behaviors. Furthermore, crayfish embryos have been important study objects for well over 200 years. Immunohistochemistry against neurotransmitters, neuromodulators, and neurohormones is widely used to analyze the ontogeny of neurons in the emerging brain of several crustacean species and to date represents one of the most powerful approaches to analyze aspects of brain development in this group of organisms. In recent years, the analysis of brain development in crustaceans has gained new momentum by the establishment of the Marmorkrebs Procambarus virginalis (Marbled Crayfish), a parthenogenetic crayfish, as new model system. The embryonic development of marbled crayfish is well characterized and these animals can be easily cultivated in the lab. This chapter describes protocols for immunolocalization of neuroactive substances in the developing crayfish brain.
在神经科学领域,小龙虾的神经系统是理解节肢动物如何处理感觉刺激并产生特定行为的重要模型。此外,200多年来,小龙虾胚胎一直是重要的研究对象。针对神经递质、神经调质和神经激素的免疫组织化学被广泛用于分析几种甲壳类动物新出现的大脑中神经元的个体发育,并且迄今为止,它是分析这类生物体大脑发育方面最有力的方法之一。近年来,通过建立一种孤雌生殖的小龙虾——大理石纹螯虾(Marmorkrebs Procambarus virginalis)作为新的模型系统,甲壳类动物大脑发育的分析获得了新的动力。大理石纹螯虾的胚胎发育特征明确,并且这些动物可以在实验室中轻松养殖。本章描述了在发育中的小龙虾大脑中对神经活性物质进行免疫定位的实验方案。