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Identification Of Novel Biomarkers In Ovarian Cancer: Systems Biology Identification Of Novel Biomarkers In Ovarian Cancer: Systems Biology

Identification Of Novel Biomarkers In Ovarian Cancer: Systems Biology Approaches

Fatma Aba Harmancı Akademisyen Kitabevi
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9786052588314
392752
Identification Of Novel Biomarkers In Ovarian Cancer: Systems Biology Approaches
Identification Of Novel Biomarkers In Ovarian Cancer: Systems Biology Approaches
220.00
1. Introduction
1.1. RNA-based ovarian cancer research
1.1.1. RNA expression profiling in ovarian cancer
1.1.2. Expression profiling of microRNAs
1.1.3. Ovarian cancer associated signaling pathways
1.1.4. Integrative approaches in ovarian cancer research
1.2. Ovarian cancer research should meet integrative
multi-omics science
1.2.1. Human transcriptional regulatory network
1.2.2. Integration of transcriptome data with biological
networks
1.2.3. Differential co-expression network in ovarian
cancer
1.2.4. Differential interactome in ovarian cancer
1.3. Ovarian diseases including polycystic ovarian syndrome
(PCOS), ovarian endometriosis and ovarian cancer
1.4. Aim of the Study
2. Materials and Methods
2.1. Reconstruction of transcriptional regulatory network
of H. sapiens
2.2. Topological analysis of transcriptional
regulatory networks
2.3. Selection of gene expression datasets
2.4. Identification of differentially expressed genes
2.5. Reconstruction of ovarian cancer specific subnetwork
2.6. Analysis of network performance
2.7. Robustness analysis
2.8. Identification of reporter receptors, membrane
proteins, transcription factors and miRNAs
2.9. Determination of reporter metabolites
2.10. Enrichment analyses of DEGs and reporter
metabolites
2.11. Comprehensive networks in CEPI, stroma
and tumor tissues
2.12. Construction of co-expression networks in
diseased and healthy states
2.13. Determination of network modules and their
differential co-expression
2.14. Prognostic power analysis of module genes
2.15. Identification of transcriptional regulatory
network including module genes
2.16. Screening the differential expression of the
module in different tumor types
2.17. Differential Protein Interactome Analysis
2.17.1. Protein interaction data
2.17.2. Determination of entropies corresponding
to each interaction
3. Results and Discussion
3.1. A generic transcriptional regulatory network of
H. sapiens was reconstructed
3.1.1. The network motifs provide a deeper investigation
into the topological architecture
3.1.2. Core network topology endorses the previous
findings on miRNA and gene interactions
3.1.3. Target genes may be regulated in cooperation of
regulators
3.1.4. A target gene may be regulated by multiple
upstream effectors in a hierarchical operation
3.1.5. Process-specific subnetworks were also
dominated by hierarchical operation of
regulators
3.1.6. Ovarian cancer specific transcriptional
regulatory network
3.2. Reporter biomolecules of ovarian cancer were
identified through network medicine perspective
3.2.1. Transcriptomic signatures of ovarian CEPI, stroma
and tumor tissues
3.2.2. Signaling receivers: reporter receptors and
membrane proteins
3.2.3. Regulatory signatures: reporter transcription
factors and microRNAs
3.2.4. Metabolomic signatures: reporter metabolites
3.2.5. Biological insights of transcriptomic signatures
and reporter metabolites
3.2.6. Tissue specific comprehensive networks with
enriched reporter biomolecules
3.3. Differential co-expression analysis reveals a novel
prognostic gene module in ovarian cancer
3.3.1. Differential gene expression in ovarian cancer
3.3.2. Co-expression profiles in ovarian cancer
3.3.3. Co-expressed gene modules in diseased and
healthy states
3.3.4. The module was differentially co-expressed in
ovarian cancer
3.3.5. Prognostic performance of the gene module
3.3.6. Transcriptional regulators of the module genes
3.3.7. Differential expression of the module genes in
different tumor types
3.4. Ovarian cancer differential interactome and network
entropy analysis reveal new candidate biomarkers
3.4.1. DNA repair responses
3.4.2. Alternative splicing mechanisms and abnormal
protein expression in tumor cells
3.4.3. Separation of sister chromatids through ESPL1
3.4.4. Suppression of EGFR-associated proliferation via
EGFR endocytosis and retinoids
3.4.5. Nucleocytoplasmic translocation of estrogen
receptor in ovarian cancer
3.4.6. Cellular response to malignancies
3.5. Integrative and comperative analysis of ovarian diseases
point out molecular signatures
3.5.1. Transcriptomic signatures: Differentially
expressed genes
3.5.2. Metabolic signatures: Reporter metabolites
3.5.3. Regulatory signatures: Reporter TFs and
miRNAs
4. Conclusion
5. References
  • Açıklama
    • 1. Introduction
      1.1. RNA-based ovarian cancer research
      1.1.1. RNA expression profiling in ovarian cancer
      1.1.2. Expression profiling of microRNAs
      1.1.3. Ovarian cancer associated signaling pathways
      1.1.4. Integrative approaches in ovarian cancer research
      1.2. Ovarian cancer research should meet integrative
      multi-omics science
      1.2.1. Human transcriptional regulatory network
      1.2.2. Integration of transcriptome data with biological
      networks
      1.2.3. Differential co-expression network in ovarian
      cancer
      1.2.4. Differential interactome in ovarian cancer
      1.3. Ovarian diseases including polycystic ovarian syndrome
      (PCOS), ovarian endometriosis and ovarian cancer
      1.4. Aim of the Study
      2. Materials and Methods
      2.1. Reconstruction of transcriptional regulatory network
      of H. sapiens
      2.2. Topological analysis of transcriptional
      regulatory networks
      2.3. Selection of gene expression datasets
      2.4. Identification of differentially expressed genes
      2.5. Reconstruction of ovarian cancer specific subnetwork
      2.6. Analysis of network performance
      2.7. Robustness analysis
      2.8. Identification of reporter receptors, membrane
      proteins, transcription factors and miRNAs
      2.9. Determination of reporter metabolites
      2.10. Enrichment analyses of DEGs and reporter
      metabolites
      2.11. Comprehensive networks in CEPI, stroma
      and tumor tissues
      2.12. Construction of co-expression networks in
      diseased and healthy states
      2.13. Determination of network modules and their
      differential co-expression
      2.14. Prognostic power analysis of module genes
      2.15. Identification of transcriptional regulatory
      network including module genes
      2.16. Screening the differential expression of the
      module in different tumor types
      2.17. Differential Protein Interactome Analysis
      2.17.1. Protein interaction data
      2.17.2. Determination of entropies corresponding
      to each interaction
      3. Results and Discussion
      3.1. A generic transcriptional regulatory network of
      H. sapiens was reconstructed
      3.1.1. The network motifs provide a deeper investigation
      into the topological architecture
      3.1.2. Core network topology endorses the previous
      findings on miRNA and gene interactions
      3.1.3. Target genes may be regulated in cooperation of
      regulators
      3.1.4. A target gene may be regulated by multiple
      upstream effectors in a hierarchical operation
      3.1.5. Process-specific subnetworks were also
      dominated by hierarchical operation of
      regulators
      3.1.6. Ovarian cancer specific transcriptional
      regulatory network
      3.2. Reporter biomolecules of ovarian cancer were
      identified through network medicine perspective
      3.2.1. Transcriptomic signatures of ovarian CEPI, stroma
      and tumor tissues
      3.2.2. Signaling receivers: reporter receptors and
      membrane proteins
      3.2.3. Regulatory signatures: reporter transcription
      factors and microRNAs
      3.2.4. Metabolomic signatures: reporter metabolites
      3.2.5. Biological insights of transcriptomic signatures
      and reporter metabolites
      3.2.6. Tissue specific comprehensive networks with
      enriched reporter biomolecules
      3.3. Differential co-expression analysis reveals a novel
      prognostic gene module in ovarian cancer
      3.3.1. Differential gene expression in ovarian cancer
      3.3.2. Co-expression profiles in ovarian cancer
      3.3.3. Co-expressed gene modules in diseased and
      healthy states
      3.3.4. The module was differentially co-expressed in
      ovarian cancer
      3.3.5. Prognostic performance of the gene module
      3.3.6. Transcriptional regulators of the module genes
      3.3.7. Differential expression of the module genes in
      different tumor types
      3.4. Ovarian cancer differential interactome and network
      entropy analysis reveal new candidate biomarkers
      3.4.1. DNA repair responses
      3.4.2. Alternative splicing mechanisms and abnormal
      protein expression in tumor cells
      3.4.3. Separation of sister chromatids through ESPL1
      3.4.4. Suppression of EGFR-associated proliferation via
      EGFR endocytosis and retinoids
      3.4.5. Nucleocytoplasmic translocation of estrogen
      receptor in ovarian cancer
      3.4.6. Cellular response to malignancies
      3.5. Integrative and comperative analysis of ovarian diseases
      point out molecular signatures
      3.5.1. Transcriptomic signatures: Differentially
      expressed genes
      3.5.2. Metabolic signatures: Reporter metabolites
      3.5.3. Regulatory signatures: Reporter TFs and
      miRNAs
      4. Conclusion
      5. References
      Stok Kodu
      :
      9786052588314
      Boyut
      :
      135-210
      Sayfa Sayısı
      :
      162
      Baskı
      :
      1
      Basım Tarihi
      :
      2020
      Kapak Türü
      :
      Karton
      Kağıt Türü
      :
      1.Hamur
      Dili
      :
      Türkçe
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