利用微阵列实验研究干细胞功能。

Study of stem cell function using microarray experiments.

作者信息

Perez-Iratxeta Carolina, Palidwor Gareth, Porter Christopher J, Sanche Neal A, Huska Matthew R, Suomela Brian P, Muro Enrique M, Krzyzanowski Paul M, Hughes Evan, Campbell Pearl A, Rudnicki Michael A, Andrade Miguel A

机构信息

Ontario Genomics Innovation Centre, Ottawa Health Research Institute, Molecular Medicine Program, 501 Smyth Road, Ottawa, Canada K1H 8L6.

出版信息

FEBS Lett. 2005 Mar 21;579(8):1795-801. doi: 10.1016/j.febslet.2005.02.020.

DOI:10.1016/j.febslet.2005.02.020

PMID:15763554

Abstract

DNA Microarrays are used to simultaneously measure the levels of thousands of mRNAs in a sample. We illustrate here that a collection of such measurements in different cell types and states is a sound source of functional predictions, provided the microarray experiments are analogous and the cell samples are appropriately diverse. We have used this approach to study stem cells, whose identity and mechanisms of control are not well understood, generating Affymetrix microarray data from more than 200 samples, including stem cells and their derivatives, from human and mouse. The data can be accessed online (StemBase; http://www.scgp.ca:8080/StemBase/).

摘要

DNA微阵列用于同时测量样本中数千种mRNA的水平。我们在此表明，只要微阵列实验具有可比性且细胞样本具有适当的多样性，那么在不同细胞类型和状态下进行的此类测量集合就是功能预测的可靠来源。我们已使用这种方法来研究干细胞，其身份和控制机制尚未完全了解，我们从包括人类和小鼠的干细胞及其衍生物在内的200多个样本中生成了Affymetrix微阵列数据。这些数据可在线获取（干细胞数据库；http://www.scgp.ca:8080/StemBase/）。

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利用微阵列实验研究干细胞功能。

Study of stem cell function using microarray experiments.

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