Open AccessSparse representation and Bayesian detection of genome copy number alterations from microarray data
Author(s) -
Roger Piqué-Regi,
Jordi Monso-Varona,
Antonio Ortega,
Robert C. Seeger,
Timothy J. Triche,
Shahab Asgharzadeh
Publication year - 2008
Publication title -
bioinformatics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.599
H-Index - 390
eISSN - 1367-4811
pISSN - 1367-4803
DOI - 10.1093/bioinformatics/btm601
Subject(s) - copy number analysis , false discovery rate , genome , breakpoint , computer science , copy number variation , bayesian probability , computational biology , algorithm , biology , genetics , artificial intelligence , gene , chromosomal translocation
Genomic instability in cancer leads to abnormal genome copy number alterations (CNA) that are associated with the development and behavior of tumors. Advances in microarray technology have allowed for greater resolution in detection of DNA copy number changes (amplifications or deletions) across the genome. However, the increase in number of measured signals and accompanying noise from the array probes present a challenge in accurate and fast identification of breakpoints that define CNA. This article proposes a novel detection technique that exploits the use of piece wise constant (PWC) vectors to represent genome copy number and sparse Bayesian learning (SBL) to detect CNA breakpoints.
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