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在果蝇胚胎细胞永生化过程中通过时间序列共表达分析发现祖细胞特征。

Discovery of progenitor cell signatures by time-series synexpression analysis during Drosophila embryonic cell immortalization.

作者信息

Dequéant Mary-Lee, Fagegaltier Delphine, Hu Yanhui, Spirohn Kerstin, Simcox Amanda, Hannon Gregory J, Perrimon Norbert

机构信息

Department of Genetics, Harvard Medical School, Boston, MA 02115,

Cold Spring Harbor Laboratories, Cold Spring Harbor, NY 11724;

出版信息

Proc Natl Acad Sci U S A. 2015 Oct 20;112(42):12974-9. doi: 10.1073/pnas.1517729112. Epub 2015 Oct 5.

DOI:10.1073/pnas.1517729112
PMID:26438832
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4620889/
Abstract

The use of time series profiling to identify groups of functionally related genes (synexpression groups) is a powerful approach for the discovery of gene function. Here we apply this strategy during Ras(V12) immortalization of Drosophila embryonic cells, a phenomenon not well characterized. Using high-resolution transcriptional time-series datasets, we generated a gene network based on temporal expression profile similarities. This analysis revealed that common immortalized cells are related to adult muscle precursors (AMPs), a stem cell-like population contributing to adult muscles and sharing properties with vertebrate satellite cells. Remarkably, the immortalized cells retained the capacity for myogenic differentiation when treated with the steroid hormone ecdysone. Further, we validated in vivo the transcription factor CG9650, the ortholog of mammalian Bcl11a/b, as a regulator of AMP proliferation predicted by our analysis. Our study demonstrates the power of time series synexpression analysis to characterize Drosophila embryonic progenitor lines and identify stem/progenitor cell regulators.

摘要

利用时间序列分析来识别功能相关基因群(共表达组)是发现基因功能的一种强大方法。在此,我们将此策略应用于果蝇胚胎细胞的Ras(V12)永生化过程,这一现象尚未得到充分表征。利用高分辨率转录时间序列数据集,我们基于时间表达谱相似性生成了一个基因网络。该分析表明,常见的永生化细胞与成体肌肉前体细胞(AMP)相关,AMP是一种干细胞样群体,对成体肌肉有贡献且与脊椎动物卫星细胞具有共同特性。值得注意的是,当用类固醇激素蜕皮激素处理时,永生化细胞保留了肌源性分化能力。此外,我们在体内验证了转录因子CG9650(哺乳动物Bcl11a/b的直系同源物),它是我们分析预测的AMP增殖调节因子。我们的研究证明了时间序列共表达分析在表征果蝇胚胎祖细胞系和识别干/祖细胞调节因子方面的强大作用。

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