Fly neurons in culture: a model for neural development and pathology

Primary neural cultures from the fruit fly, Drosophila melanogaster , enable a high-resolution glance into cellular processes and neuronal interaction. The development of the culture, along with its vitality and functionality, can be continuously monitored, and the abundance of available tools for D...

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Veröffentlicht in:	Journal of molecular histology 2012-08, Vol.43 (4), p.421-430
Hauptverfasser:	Saad, Yaara, Anabosi, Mai, Anava, Sarit, Nadav, Golan, Yerushalmi, Yoram, Ayali, Amir
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biomedical and Life Sciences Biomedicine Cell Biology Cell Culture Techniques Cells, Cultured Connexins - metabolism Connexins - physiology Developmental Biology Drosophila melanogaster Drosophila melanogaster - cytology Drosophila melanogaster - physiology Drosophila Proteins - metabolism Gene Expression Regulation, Developmental Life Sciences Nerve Net - cytology Nerve Net - physiology Neurogenesis - physiology Neurons - cytology Neurons - physiology Original Paper
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container_end_page	430
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container_title	Journal of molecular histology
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creator	Saad, Yaara Anabosi, Mai Anava, Sarit Nadav, Golan Yerushalmi, Yoram Ayali, Amir
description	Primary neural cultures from the fruit fly, Drosophila melanogaster , enable a high-resolution glance into cellular processes and neuronal interaction. The development of the culture, along with its vitality and functionality, can be continuously monitored, and the abundance of available tools for D. melanogaster research can greatly assist in characterizing different aspects of the culture. The fly primary neural culture preparation thus offers a promising platform for studying a variety of processes relating to nervous system development, activity and pathology. Our data reveal that neural cultures derived from the CNS of third-instar D. melanogaster larvae undergo an organization process that is specific and consistent throughout different cultures, and culminates in the creation of an elaborate neural network. We demonstrate that this process is accompanied by detectable changes in the protein expression profile of the culture, indicating the involvement of multi-protein processes specific to each stage of the network’s development. As a further proof of concept, we demonstrate differential expression of a particular protein family, the gap-junction constructing innexin protein family, throughout the network’s life.
doi_str_mv	10.1007/s10735-012-9417-z
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subjects	Animals Biomedical and Life Sciences Biomedicine Cell Biology Cell Culture Techniques Cells, Cultured Connexins - metabolism Connexins - physiology Developmental Biology Drosophila melanogaster Drosophila melanogaster - cytology Drosophila melanogaster - physiology Drosophila Proteins - metabolism Gene Expression Regulation, Developmental Life Sciences Nerve Net - cytology Nerve Net - physiology Neurogenesis - physiology Neurons - cytology Neurons - physiology Original Paper
title	Fly neurons in culture: a model for neural development and pathology
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