一种用于可视化小鼠细胞形态和克隆关系的非侵入性遗传/药理学策略。
A noninvasive genetic/pharmacologic strategy for visualizing cell morphology and clonal relationships in the mouse.
作者信息
Badea Tudor C, Wang Yanshu, Nathans Jeremy
机构信息
Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, USA.
出版信息
J Neurosci. 2003 Mar 15;23(6):2314-22. doi: 10.1523/JNEUROSCI.23-06-02314.2003.
Abstract
Analysis of cellular morphology is the most general approach to neuronal classification. With the increased use of genetically engineered mice, there is a growing need for methods that can selectively visualize the morphologies of specified subsets of neurons. This capability is needed both to define cell morphologic phenotypes and to mark cells in a noninvasive manner for lineage studies. To this end, we describe a bipartite genetic system based on a Cre-estrogen receptor (ER) fusion protein that irreversibly activates a plasma membrane-bound alkaline phosphatase reporter gene by site-specific recombination. Because the efficiency and timing of gene rearrangement is controlled pharmacologically, a sparse subset of labeled cells can be generated from the set of CreER-expressing cells at any time during development. Histochemical visualization of alkaline phosphatase activity reveals neuronal morphology with strong and uniform labeling of all processes.
摘要
细胞形态分析是神经元分类最常用的方法。随着基因工程小鼠的使用增加,越来越需要能够选择性地可视化特定神经元亚群形态的方法。定义细胞形态表型以及以非侵入性方式标记细胞用于谱系研究都需要这种能力。为此,我们描述了一种基于Cre-雌激素受体(ER)融合蛋白的二元遗传系统,该系统通过位点特异性重组不可逆地激活质膜结合碱性磷酸酶报告基因。由于基因重排的效率和时间由药理学控制,在发育过程中的任何时候,都可以从表达CreER的细胞群中产生稀疏的标记细胞亚群。碱性磷酸酶活性的组织化学可视化揭示了神经元形态,所有突起均有强烈且均匀的标记。
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