MOTIVATION: Hierarchical clustering is widely used to cluster genes into groups based on their expression similarity. This method first constructs a tree. Next this tree is partitioned into subtrees by cutting all edges at some level, thereby inducing a clustering. Unfortunately, the resulting clusters often do not exhibit significant functional coherence. RESULTS: To improve the biological significance of the clustering, we develop a new framework of partitioning by snipping--cutting selected edges at variable levels. The snipped edges are selected to induce clusters that are maximally consistent with partially available background knowledge such as functional classifications. Algorithms for two key applications are presented: functional prediction of genes, and discovery of functionally enriched clusters of co-expressed genes. Simulation results and cross-validation tests indicate that the algorithms perform well even when the actual number of clusters differs considerably from the requested number. Performance is improved compared with a previously proposed algorithm. AVAILABILITY: A java package is available at http://www.cs.bgu.ac.il/~dotna/ TreeSnipping
MOTIVATION: Hierarchical clustering is widely used to cluster genes into groups based on their expression similarity. This method first constructs a tree. Next this tree is partitioned into subtrees by cutting all edges at some level, thereby inducing a clustering. Unfortunately, the resulting clusters often do not exhibit significant functional coherence. RESULTS: To improve the biological significance of the clustering, we develop a new framework of partitioning by snipping--cutting selected edges at variable levels. The snipped edges are selected to induce clusters that are maximally consistent with partially available background knowledge such as functional classifications. Algorithms for two key applications are presented: functional prediction of genes, and discovery of functionally enriched clusters of co-expressed genes. Simulation results and cross-validation tests indicate that the algorithms perform well even when the actual number of clusters differs considerably from the requested number. Performance is improved compared with a previously proposed algorithm. AVAILABILITY: A java package is available at http://www.cs.bgu.ac.il/~dotna/ TreeSnipping
Authors: Barbara Di Camillo; Brian A Irving; Jill Schimke; Tiziana Sanavia; Gianna Toffolo; Claudio Cobelli; K Sreekumaran Nair Journal: PLoS One Date: 2012-03-01 Impact factor: 3.240
Authors: Diego H Milone; Georgina Stegmayer; Mariana López; Laura Kamenetzky; Fernando Carrari Journal: BMC Bioinformatics Date: 2014-04-10 Impact factor: 3.169