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鉴定含有过渡放大神经节母细胞的果蝇II型神经母细胞谱系。

Identification of Drosophila type II neuroblast lineages containing transit amplifying ganglion mother cells.

作者信息

Boone Jason Q, Doe Chris Q

机构信息

Institute of Neuroscience and Institute of Molecular Biology, Howard Hughes Medical Institute, University of Oregon, Eugene, Oregon 97403, USA.

出版信息

Dev Neurobiol. 2008 Aug;68(9):1185-95. doi: 10.1002/dneu.20648.

DOI:10.1002/dneu.20648
PMID:18548484
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2804867/
Abstract

Mammalian neural stem cells generate transit amplifying progenitors that expand the neuronal population, but these type of progenitors have not been studied in Drosophila. The Drosophila larval brain contains approximately 100 neural stem cells (neuroblasts) per brain lobe, which are thought to bud off smaller ganglion mother cells (GMCs) that each produce two post-mitotic neurons. Here, we use molecular markers and clonal analysis to identify a novel neuroblast cell lineage containing "transit amplifying GMCs" (TA-GMCs). TA-GMCs differ from canonical GMCs in several ways: each TA-GMC has nuclear Deadpan, cytoplasmic Prospero, forms Prospero crescents at mitosis, and generates up to 10 neurons; canonical GMCs lack Deadpan, have nuclear Prospero, lack Prospero crescents at mitosis, and generate two neurons. We conclude that there are at least two types of neuroblast lineages: a Type I lineage where GMCs generate two neurons, and a type II lineage where TA-GMCs have longer lineages. Type II lineages allow more neurons to be produced faster than Type I lineages, which may be advantageous in a rapidly developing organism like Drosophila.

摘要

哺乳动物的神经干细胞会产生过渡放大祖细胞,这些祖细胞会扩大神经元群体,但这类祖细胞尚未在果蝇中得到研究。果蝇幼虫大脑每个脑叶大约含有100个神经干细胞(神经母细胞),人们认为这些神经母细胞会产生较小的神经节母细胞(GMCs),每个神经节母细胞会产生两个有丝分裂后的神经元。在此,我们使用分子标记和克隆分析来鉴定一种包含“过渡放大神经节母细胞”(TA-GMCs)的新型神经母细胞谱系。TA-GMCs在几个方面与典型的GMCs不同:每个TA-GMC有细胞核中的无脸蛋白、细胞质中的宝仙蛋白,在有丝分裂时形成宝仙蛋白月牙体,并产生多达10个神经元;典型的GMCs缺乏无脸蛋白,有细胞核中的宝仙蛋白,在有丝分裂时缺乏宝仙蛋白月牙体,并产生两个神经元。我们得出结论,至少有两种类型的神经母细胞谱系:I型谱系中GMCs产生两个神经元,II型谱系中TA-GMCs具有更长的谱系。II型谱系比I型谱系能更快地产生更多神经元,这在像果蝇这样快速发育的生物体中可能是有利的。

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本文引用的文献

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Neural stem cells: balancing self-renewal with differentiation.神经干细胞:平衡自我更新与分化
Development. 2008 May;135(9):1575-87. doi: 10.1242/dev.014977. Epub 2008 Mar 20.
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The tumor suppressors Brat and Numb regulate transit-amplifying neuroblast lineages in Drosophila.肿瘤抑制因子Brat和Numb调节果蝇中转录放大神经母细胞谱系。
Dev Cell. 2008 Apr;14(4):535-46. doi: 10.1016/j.devcel.2008.03.004. Epub 2008 Mar 13.
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Amplification of neural stem cell proliferation by intermediate progenitor cells in Drosophila brain development.果蝇大脑发育过程中中间祖细胞对神经干细胞增殖的促进作用。
Neural Dev. 2008 Feb 19;3:5. doi: 10.1186/1749-8104-3-5.
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Drosophila Activin- and the Activin-like product Dawdle function redundantly to regulate proliferation in the larval brain.果蝇激活素和激活素样产物道德尔在调节幼虫大脑增殖方面发挥冗余功能。
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Filling the gap between identified neuroblasts and neurons in crustaceans adds new support for Tetraconata.填补甲壳类动物中已识别的神经母细胞和神经元之间的空白,为四纲动物增添了新的支持。
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Drosophila Aurora-A kinase inhibits neuroblast self-renewal by regulating aPKC/Numb cortical polarity and spindle orientation.果蝇极光激酶A通过调节非典型蛋白激酶C/麻木蛋白皮层极性和纺锤体方向来抑制神经母细胞的自我更新。
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Aurora-A acts as a tumor suppressor and regulates self-renewal of Drosophila neuroblasts.极光激酶A作为一种肿瘤抑制因子,调控果蝇神经母细胞的自我更新。
Genes Dev. 2006 Dec 15;20(24):3453-63. doi: 10.1101/gad.1487506.
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Prospero acts as a binary switch between self-renewal and differentiation in Drosophila neural stem cells.在果蝇神经干细胞中,Prospero作为自我更新和分化之间的二元开关发挥作用。
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