Christian Otto1, Kristin Reiche, Jörg Hackermüller. 1. Bioinformatics Group, Department of Computer Science and Interdisciplinary Center for Bioinformatics, University of Leipzig, Leipzig, Germany.
Abstract
MOTIVATION: Tiling arrays have been a mainstay of unbiased genome-wide transcriptomics over the last decade. Currently available approaches to identify expressed or differentially expressed segments in tiling array data are limited in the recovery of the underlying gene structures and require several parameters that are intensity-related or partly dataset-specific. RESULTS: We have developed TileShuffle, a statistical approach that identifies transcribed and differentially expressed segments as significant differences from the background distribution while considering sequence-specific affinity biases and cross-hybridization. It avoids dataset-specific parameters in order to provide better comparability of different tiling array datasets, based on different technologies or array designs. TileShuffle detects highly and differentially expressed segments in biological data with significantly lower false discovery rates under equal sensitivities than commonly used methods. Also, it is clearly superior in the recovery of exon-intron structures. It further provides window z-scores as a normalized and robust measure for visual inspection. AVAILABILITY: The R package including documentation and examples is freely available at http://www.bioinf.uni-leipzig.de/Software/TileShuffle/
MOTIVATION: Tiling arrays have been a mainstay of unbiased genome-wide transcriptomics over the last decade. Currently available approaches to identify expressed or differentially expressed segments in tiling array data are limited in the recovery of the underlying gene structures and require several parameters that are intensity-related or partly dataset-specific. RESULTS: We have developed TileShuffle, a statistical approach that identifies transcribed and differentially expressed segments as significant differences from the background distribution while considering sequence-specific affinity biases and cross-hybridization. It avoids dataset-specific parameters in order to provide better comparability of different tiling array datasets, based on different technologies or array designs. TileShuffle detects highly and differentially expressed segments in biological data with significantly lower false discovery rates under equal sensitivities than commonly used methods. Also, it is clearly superior in the recovery of exon-intron structures. It further provides window z-scores as a normalized and robust measure for visual inspection. AVAILABILITY: The R package including documentation and examples is freely available at http://www.bioinf.uni-leipzig.de/Software/TileShuffle/
Authors: Xie Fuli; Zhao Wenlong; Wang Xiao; Zhang Jing; Hao Baohai; Zou Zhengzheng; Ma Bin-Guang; Li Youguo Journal: Front Microbiol Date: 2017-09-08 Impact factor: 5.640
Authors: Sigrun Helga Lund; Daniel Fannar Gudbjartsson; Thorunn Rafnar; Asgeir Sigurdsson; Sigurjon Axel Gudjonsson; Julius Gudmundsson; Kari Stefansson; Gunnar Stefansson Journal: PLoS One Date: 2014-06-17 Impact factor: 3.240