Add to ORKGRecent large cancer studies have measured somatic alterations in an unprecedented number of tumours. These large datasets allow the identification of cancer-related sets of genetic alterations by identifying relevant combinatorial patterns. Among such patterns, mutual exclusivity has been employed by several recent methods that have shown its effectiveness in characterizing gene sets associated to cancer. Mutual exclusivity arises because of the complementarity, at the functional level, of alterations in genes which are part of a group (e.g., a pathway) performing a given function. The availability of quantitative target profiles, from genetic perturbations or from clinical phenotypes, provides additional information that can be leveraged t...
Because of its clonal evolution a tumor rarely contains multiple genomic alterations in the same pat...
Background: Large-scale cancer genomic projects are providing lots of data on genomic, epigenomic an...
Background: The normal functioning of a living cell is characterized by complex interaction networks...
Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....
Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....
Advances in DNA sequencing technologies have enabled large cancer sequencing studies, collecting som...
We present a novel method for the identification of sets of mutually exclusive gene alterations in a...
<div><p>In large collections of tumor samples, it has been observed that sets of genes that are comm...
Abstract\ud \ud An important goal of cancer genomic research is to identify the driving pathways und...
Background\ud The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations...
The progress of cancer genome sequencing projects yields unprecedented information of mutations for ...
Cancer is a complex disease driven by somatic genomic alterations (SGAs) that perturb signaling path...
Background: The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations a...
combinations of mutually exclusive alterations in cancer Mark DM Leiserson1,2†, Hsin-Ta Wu1,2†, Fabi...
Systematic efforts to sequence the cancer genome have identified large numbers of mutations and copy...
Because of its clonal evolution a tumor rarely contains multiple genomic alterations in the same pat...
Background: Large-scale cancer genomic projects are providing lots of data on genomic, epigenomic an...
Background: The normal functioning of a living cell is characterized by complex interaction networks...
Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....
Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....
Advances in DNA sequencing technologies have enabled large cancer sequencing studies, collecting som...
We present a novel method for the identification of sets of mutually exclusive gene alterations in a...
<div><p>In large collections of tumor samples, it has been observed that sets of genes that are comm...
Abstract\ud \ud An important goal of cancer genomic research is to identify the driving pathways und...
Background\ud The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations...
The progress of cancer genome sequencing projects yields unprecedented information of mutations for ...
Cancer is a complex disease driven by somatic genomic alterations (SGAs) that perturb signaling path...
Background: The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations a...
combinations of mutually exclusive alterations in cancer Mark DM Leiserson1,2†, Hsin-Ta Wu1,2†, Fabi...
Systematic efforts to sequence the cancer genome have identified large numbers of mutations and copy...
Because of its clonal evolution a tumor rarely contains multiple genomic alterations in the same pat...
Background: Large-scale cancer genomic projects are providing lots of data on genomic, epigenomic an...
Background: The normal functioning of a living cell is characterized by complex interaction networks...