Literature DB >> 17933216

Gene regulation networks related to neural differentiation of hESC.

Jiang F Zhong1, Yahui Song, Jing Du, Christine Gamache, Kathleen A Burke, Brett T Lund, Leslie P Weiner.   

Abstract

With the unique property of self-renewal and developmental pluripotency, human embryonic stem cells (hESC) provide an opportunity to study molecular aspects of developmental biology. Understanding gene regulation of hESC pluripotency is a critical step toward directing hESC differentiation for regenerative medicine. However, currently little is known about hESC gene regulation of hESC pluripotency. Applying network analysis to microarray gene expression profiling data, we compared gene expression profiles from pluripotent hESC to hESC-derived astrocytes and identified potential gene regulation networks. These gene regulation networks suggest that hECS has stringent control of cell cycle and apoptosis. Our data reveal several potential hESC differentiation biomarkers and suggest that IGF2 and A2M could play a role in hESC pluripotency by altering the availability of cytokines at the local environment of hECS. These findings underscore the importance of network analysis among differentially expressed genes, and should facilitate future study for understanding the gene regulation of hESC pluripotency.

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Year:  2007        PMID: 17933216      PMCID: PMC6042016          DOI: 10.3727/000000007783991781

Source DB:  PubMed          Journal:  Gene Expr        ISSN: 1052-2166


  72 in total

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  5 in total

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2.  Temporal analysis of neural differentiation using quantitative proteomics.

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3.  Altered methylation of IGF2 DMR0 is associated with neural tube defects.

Authors:  Lihua Wu; Li Wang; Shaofang Shangguan; Shaoyan Chang; Zhen Wang; Xiaolin Lu; Qin Zhang; Jianhua Wang; Huizhi Zhao; Fang Wang; Jin Guo; Bo Niu; Jingzhu Guo; Ting Zhang
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Authors:  Xi Zhang; Cheng Zhang; Zhongjun Li; Jiangjian Zhong; Leslie P Weiner; Jiang F Zhong
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  5 in total

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