The integration of high-throughput genomic data represents an opportunity for deciphering the interplay between structural and functional organization of genomes and for discovering novel biomarkers. However, the development of integrative approaches to complement gene expression (GE) data with other types of gene information, such as copy number (CN) and chromosomal localization, still represents a computational challenge in the genomic arena. This work presents a computational procedure that directly integrates CN and GE profiles at genome-wide level. When applied to DNA/RNA paired data, this approach leads to the identification of Significant Overlaps of Differentially Expressed and Genomic Imbalanced Regions (SODEGIR). This goal is acco...
International audiencePurpose: Glioblastomas (GBM) are highly malignant and heterogeneous gliomas wi...
The work comprised in this PhD thesis described the development of a novel mathematical and statisti...
Genetic and epigenetic alterations combine to drive cancer progression. Heterogeneous cell populatio...
The integration of high-throughput genomic data represents an opportunity for deciphering the interp...
Motivation: The analysis of a number of different genetic features like copy number (CN) variation, ...
Abstract Motivation: The systematic integration of expression profiles and other type...
AbstractDNA copy number aberrations (CNAs) are genetic alterations common in cancer cells. Their tra...
As we enter the post-genome era with readily available technologies for global profiling of gene exp...
Analysis of somatic alterations in cancer genomes has been accelerated through the rapid growth of t...
BACKGROUND: Regional genomic copy number alterations (CNA) are observed in the vast majority of canc...
The systematic integration of expression profiles and other types of gene information, such as copy ...
Tumorigenesis is a multi-step process in which normal cells transform into malignant tumors followin...
Transcriptional profiling of whole genomes using cDNA or oligonucleotide high-density arrays is beco...
Genomic instability is an enabling hallmark of cancer that comprises the progressive accumulation of...
International audienceGlioblastoma multiforme shows multiple chromosomal aberrations, the impact of ...
International audiencePurpose: Glioblastomas (GBM) are highly malignant and heterogeneous gliomas wi...
The work comprised in this PhD thesis described the development of a novel mathematical and statisti...
Genetic and epigenetic alterations combine to drive cancer progression. Heterogeneous cell populatio...
The integration of high-throughput genomic data represents an opportunity for deciphering the interp...
Motivation: The analysis of a number of different genetic features like copy number (CN) variation, ...
Abstract Motivation: The systematic integration of expression profiles and other type...
AbstractDNA copy number aberrations (CNAs) are genetic alterations common in cancer cells. Their tra...
As we enter the post-genome era with readily available technologies for global profiling of gene exp...
Analysis of somatic alterations in cancer genomes has been accelerated through the rapid growth of t...
BACKGROUND: Regional genomic copy number alterations (CNA) are observed in the vast majority of canc...
The systematic integration of expression profiles and other types of gene information, such as copy ...
Tumorigenesis is a multi-step process in which normal cells transform into malignant tumors followin...
Transcriptional profiling of whole genomes using cDNA or oligonucleotide high-density arrays is beco...
Genomic instability is an enabling hallmark of cancer that comprises the progressive accumulation of...
International audienceGlioblastoma multiforme shows multiple chromosomal aberrations, the impact of ...
International audiencePurpose: Glioblastomas (GBM) are highly malignant and heterogeneous gliomas wi...
The work comprised in this PhD thesis described the development of a novel mathematical and statisti...
Genetic and epigenetic alterations combine to drive cancer progression. Heterogeneous cell populatio...