The systematic integration of expression profiles and other types of gene information, such as copy number, chromosomal localization, and sequence characteristics, still represents a challenge in the genomic arena. In particular, the integrative analysis of genomic and transcriptional data in context of the physical location of genes in a genome appears promising in detecting chromosomal regions with structural and transcriptional imbalances often characterizing cancer. A computational framework based on locally adaptive statistical procedures (Global Smoothing Copy Number, GLSCN, and Locally Adaptive Statistical Procedure, LAP), which incorporate genomic and transcriptional data with structural information for the identification of imbalanced chromosomal regions, is described. Both GLSCN and LAP accounts for variations in the distance between genes and in gene density by smoothing standard statistics on gene position before testing the significance of copy number and gene expression signals. The application of GLSCN and LAP to the integrative analysis of a human metastatic clear cell renal carcinoma cell line (Caki-1) allowed identifying chromosomal regions that are directly involved in known chromosomal aberrations characteristic of tumors. © Springer-Verlag Berlin Heidelberg 2007.
Locally adaptive statistical procedures for the integrative analysis on genomic and transcriptional data / Zampieri, M.; Cifola, I.; Basso, D.; Spinelli, R.; Beltrame, L.; Peano, C.; Battaglia, C.; Bicciato, S.. - 4578:(2007), pp. 682-689. (Intervento presentato al convegno 7th International Workshop on Fuzzy Logic and Applications, WILF 2007 tenutosi a Camogli, ita nel 2007) [10.1007/978-3-540-73400-0_87].
Locally adaptive statistical procedures for the integrative analysis on genomic and transcriptional data
Bicciato S.
2007
Abstract
The systematic integration of expression profiles and other types of gene information, such as copy number, chromosomal localization, and sequence characteristics, still represents a challenge in the genomic arena. In particular, the integrative analysis of genomic and transcriptional data in context of the physical location of genes in a genome appears promising in detecting chromosomal regions with structural and transcriptional imbalances often characterizing cancer. A computational framework based on locally adaptive statistical procedures (Global Smoothing Copy Number, GLSCN, and Locally Adaptive Statistical Procedure, LAP), which incorporate genomic and transcriptional data with structural information for the identification of imbalanced chromosomal regions, is described. Both GLSCN and LAP accounts for variations in the distance between genes and in gene density by smoothing standard statistics on gene position before testing the significance of copy number and gene expression signals. The application of GLSCN and LAP to the integrative analysis of a human metastatic clear cell renal carcinoma cell line (Caki-1) allowed identifying chromosomal regions that are directly involved in known chromosomal aberrations characteristic of tumors. © Springer-Verlag Berlin Heidelberg 2007.Pubblicazioni consigliate
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