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Literature DB >> 24107168

Network biomarkers reveal dysfunctional gene regulations during disease progression.

Tao Zeng¹, Shao-Yan Sun, Yong Wang, Hailong Zhu, Luonan Chen.

Abstract

Extensive studies have been conducted on gene biomarkers by exploring the increasingly accumulated gene expression and sequence data generated from high-throughput technology. Here, we briefly report on the state-of-the-art research and application of biomarkers from single genes (i.e. gene biomarkers) to gene sets (i.e. group or set biomarkers), gene networks (i.e. network biomarkers) and dynamical gene networks (i.e. dynamical network biomarkers). In particular, differential and dynamical network biomarkers are used as representative examples to demonstrate their effectiveness in both detecting early signals for complex diseases and revealing essential mechanisms on disease initiation and progression at a network level.

Entities: Disease

Keywords: differential expression network; disease diagnosis; disease prognosis; disease progression; dynamical network biomarkers; gene regulation; module biomarkers; network biomarkers; progressive module network model; systems biology

Mesh：

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Year: 2013 PMID： 24107168 DOI： 10.1111/febs.12536

Source DB: PubMed Journal: FEBS J ISSN： 1742-464X Impact factor: 5.542

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Cited

26 in total

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10. Screening candidate microRNA-mRNA regulatory pairs for predicting the response to chemoradiotherapy in rectal cancer by a bioinformatics approach.

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Journal: Sci Rep Date: 2017-09-12 Impact factor: 4.379

Network biomarkers reveal dysfunctional gene regulations during disease progression.

1. ESRRG, ATP4A, and ATP4B as Diagnostic Biomarkers for Gastric Cancer: A Bioinformatic Analysis Based on Machine Learning.

2. Individual-specific edge-network analysis for disease prediction.

3. Gene Regulation Network Analysis on Human Prostate Orthografts Highlights a Potential Role for the JMJD6 Regulon in Clinical Prostate Cancer.

4. Unravelling personalized dysfunctional gene network of complex diseases based on differential network model.

Review 5. Pathway mapping and development of disease-specific biomarkers: protein-based network biomarkers.

6. Network-based biomarkers enhance classical approaches to prognostic gene expression signatures.

7. GSNFS: Gene subnetwork biomarker identification of lung cancer expression data.

8. A network-based predictive gene-expression signature for adjuvant chemotherapy benefit in stage II colorectal cancer.

9. Integrative enrichment analysis: a new computational method to detect dysregulated pathways in heterogeneous samples.

10. Screening candidate microRNA-mRNA regulatory pairs for predicting the response to chemoradiotherapy in rectal cancer by a bioinformatics approach.