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Glial cells in neuronal development:recent advances and insights from Drosophila melanogaster 被引量:3
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作者 jiayao ou Yijing He +4 位作者 Xi Xiao Tian-Ming Yu Changyan Chen Zongbao Gao Margaret S.Ho 《Neuroscience Bulletin》 SCIE CAS CSCD 2014年第4期584-594,共11页
Gila outnumber neurons and are the most abundant cell type in the nervous system. Whereas neurons are the major carriers, transducers, and processors of information, glial cells, once considered mainly to play a passi... Gila outnumber neurons and are the most abundant cell type in the nervous system. Whereas neurons are the major carriers, transducers, and processors of information, glial cells, once considered mainly to play a passive supporting role, are now recognized for their active contributions to almost every aspect of nervous system development. Recently, insights from the invertebrate organism Drosophila melanogaster have advanced our knowledge of glial cell biology. In particular, findings on neuron-glia interactions via intrinsic and extrinsic mechanisms have shed light on the importance of gtia during different stages of neuronal development. Here, we summarize recent advances in understanding the functions of Drosophila glia, which resemble their mammalian counterparts in morphology and function, neural stem-cell conversion, synapse formation, and developmental axon pruning. These discoveries reinforce the idea that glia are substantial players in the developing nervous system and further advance the understanding of mechanisms leading to neurodegeneration. 展开更多
关键词 GLIA neuronal development GCM NEURODEGENERATION neural stem cell synapse formation axon pruning
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Analysis of Glial Distribution in Drosophila Adult Brains 被引量:1
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作者 jiayao ou Zongbao Gao +1 位作者 Li Song Margaret S.Ho 《Neuroscience Bulletin》 SCIE CAS CSCD 2016年第2期162-170,共9页
Neurons and glia are the two major cell types in the nervous system and work closely with each other to program neuronal interplay. Traditionally, neurons are thought to be the major cells that actively regulate proce... Neurons and glia are the two major cell types in the nervous system and work closely with each other to program neuronal interplay. Traditionally, neurons are thought to be the major cells that actively regulate processes like synapse formation, plasticity, and behavioral output. Glia, on the other hand, serve a more supporting role. To date, accumulating evidence has suggested that glia are active participants in virtually every aspect of neuronal function. Despite this, fundamental features of how glia interact with neurons, and their spatial relationships, remain elusive. Here, we describe the glial cell population in Drosophila adult brains. Glial cells extend and tightly associate their processes with major structures such as the mushroom body(MB), ellipsoid body(EB),and antennal lobe(AL) in the brain. Glial cells are distributed in a more concentrated manner in the MB. Furthermore, subsets of glia exhibit distinctive association patterns around different neuronal structures. Whereas processes extended by astrocyte-like glia and ensheathing glia wrap around the MB and infiltrate into the EB and AL, cortex glia stay where cell bodies of neurons are and remain outside of the synaptic regions structured by EB or AL. 展开更多
关键词 Glia Drosophila Mushroom body
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