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 Vol 6: Using random walks to identify cancer-associated modules in expression data.


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This article is from BioData Mining, volume 6.AbstractBackground: The etiology of cancer involves a complex series of genetic and environmental conditions. To better represent and study the intricate genetics of cancer onset and progression, we construct a network of biological interactions to search for groups of genes that compose cancer-related modules. Three cancer expression datasets are investigated to prioritize genes and interactions associated with cancer outcomes. Using a graph-based approach to search for communities of phenotype-related genes in microarray data, we find modules of genes associated with cancer phenotypes in a weighted interaction network. Results: We implement Walktrap, a random-walk-based community detection algorithm, to identify biological modules predisposing to tumor growth in 22 hepatocellular carcinoma samples GSE14520, adenoma development in 32 colorectal cancer samples GSE8671, and prognosis in 198 breast cancer patients GSE7390. For each study, we find the best scoring partitions under a maximum cluster size of 200 nodes. Significant modules highlight groups of genes that are functionally related to cancer and show promise as therapeutic targets; these include interactions among transcription factors SPIB, RPS6KA2 and RPS6KA6, cell-cycle regulatory genes BRSK1, WEE1 and CDC25C, modulators of the cell-cycle and proliferation CBLC and IRS2 and genes that regulate and participate in the map-kinase pathway MAPK9, DUSP1, DUSP9, RIPK2. To assess the performance of Walktrap to find genomic modules Walktrap-GM, we evaluate our results against other tools recently developed to discover disease modules in biological networks. Compared with other highly cited module-finding tools, jActiveModules and Matisse, Walktrap-GM shows strong performance in the discovery of modules enriched with known cancer genes. Conclusions: These results demonstrate that the Walktrap-GM algorithm identifies modules significantly enriched with cancer genes, their joint effects and promising candidate genes. The approach performs well when evaluated against similar tools and smaller overall module size allows for more specific functional annotation and facilitates the interpretation of these modules.



Autor: Petrochilos, Deanna; Shojaie, Ali; Gennari, John; Abernethy, Neil

Fuente: https://archive.org/







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