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| Ανάλυση Εμπλουτισμού Συνόλων Γονιδίων με Υποβοήθηση Μηχανικής Μάθησης× | Ανάλυση Εμπλουτισμού Βιολογικών Οδών× | |
|---|---|---|
| Πεδίο | Βιοπληροφορική | Βιοπληροφορική |
| Οικογένεια | Process / pipeline | Process / pipeline |
| Έτος προέλευσης≠ | 2005 (GSEA); ML integration from ~2015 onward | 2003–2005 |
| Δημιουργός≠ | Subramanian et al. (GSEA foundation, 2005); various ML extensions thereafter | Mootha et al. (2003); systematised by Subramanian et al. (2005) |
| Τύπος≠ | Computational enrichment analysis with machine learning | Statistical functional annotation method |
| Θεμελιώδης πηγή | Subramanian, A., Tamayo, P., Mootha, V. K., Mukherjee, S., Ebert, B. L., Gillette, M. A., Paulovich, A., Pomeroy, S. L., Golub, T. R., Lander, E. S., & Mesirov, J. P. (2005). Gene set enrichment analysis: A knowledge-based approach for interpreting genome-wide expression profiles. Proceedings of the National Academy of Sciences, 102(43), 15545–15550. DOI ↗ | Subramanian, A., Tamayo, P., Mootha, V. K., Mukherjee, S., Ebert, B. L., Gillette, M. A., Paulovich, A., Pomeroy, S. L., Golub, T. R., Lander, E. S., & Mesirov, J. P. (2005). Gene set enrichment analysis: A knowledge-based approach for interpreting genome-wide expression profiles. Proceedings of the National Academy of Sciences, 102(43), 15545–15550. DOI ↗ |
| Εναλλακτικές ονομασίες | ML-GSEA, deep learning pathway enrichment, neural GSEA, ML-assisted pathway analysis | PEA, overrepresentation analysis, ORA, functional enrichment analysis |
| Συναφείς | 6 | 6 |
| Σύνοψη≠ | Machine learning-assisted gene set enrichment analysis (ML-GSEA) extends the classical GSEA framework by incorporating supervised or unsupervised ML models — such as random forests, neural networks, or deep learning architectures — to improve the detection, ranking, and biological interpretation of enriched gene sets from high-throughput expression data. The approach is particularly valuable for complex, non-linear gene-set relationships that classical enrichment statistics may miss. | Pathway enrichment analysis (PEA) is a statistical approach that takes a list of genes or proteins of interest — typically derived from a differential expression or proteomics experiment — and identifies which pre-defined biological pathways or functional gene sets are represented more often than expected by chance. By mapping individual molecular changes onto curated pathway knowledge bases such as KEGG, Gene Ontology, or Reactome, PEA translates long gene lists into interpretable biological processes, making it a central tool in the post-analysis of high-throughput omics experiments. |
| ScholarGateΣύνολο δεδομένων ↗ |
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