Systematic identification of cancer driving signaling pathways based on mutual exclusivity of genomic alterations.

An exact algorithm for finding cancer driver somatic genome alterations: the weighted mutually exclusive maximum set cover problem

Lu, Songjian
Mandava, Gunasheil
Yan, Gaibo
Lu, Xinghua

May 2016

Background\ud The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations...

Identification of Networks of Co-Occurring, Tumor-Related DNA Copy Number Changes Using a Genome-Wide Scoring Approach

Klijn, C. (author)
Bot, J. (author)
Adams, D.J. (author)
Reinders, M. (author)
Wessels, L. (author)
Jonkers, J. (author)

January 2010

Tumorigenesis is a multi-step process in which normal cells transform into malignant tumors followin...

A novel independence test for somatic alterations in cancer shows that biology drives mutual exclusivity but chance explains most co-occurrence

Canisius, Sander (author)
Wessels, L.F.A. (author)
Martens, John W. M. (author)

January 2016

In cancer, mutually exclusive or co-occurring somatic alterations across genes can suggest functiona...

Systematic identification of cancer driving signaling pathways based on mutual exclusivity of genomic alterations.

Babur, Ö.
Gönen, M.
Aksoy, B.A.
Schultz, N.
Ciriello, G.
Sander, C.
Demir, E.

February 2015

We present a novel method for the identification of sets of mutually exclusive gene alterations in a...

Identifying Driver Genomic Alterations in Cancers by Searching Minimum-Weight, Mutually Exclusive Sets

Lu, S
Lu, KN
Cheng, SY
Hu, B
Ma, X
Nystrom, N
Lu, X

August 2015

An important goal of cancer genomic research is to identify the driving pathways underlying disease ...

SSA-ME Detection of cancer driver genes using mutual exclusivity by small subnetwork analysis

Pulido Tamayo, Sergio
Weytjens, Bram
De Maeyer, Dries
Marchal, Kathleen

January 2016

Because of its clonal evolution a tumor rarely contains multiple genomic alterations in the same pat...

Modeling Mutual Exclusivity of Cancer Mutations

Ewa Szczurek (543794)
Niko Beerenwinkel (54419)

March 2014

<div><p>In large collections of tumor samples, it has been observed that sets of genes that are comm...

Efficient algorithms to discover alterations with complementary functional association in cancer

Basso, RS
Hochbaum, DS
Vandin, F

May 2019

Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....

Efficient algorithms to discover alterations with complementary functional association in cancer.

Rebecca Sarto Basso
Dorit S Hochbaum
Fabio Vandin

May 2019

Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....

An exact algorithm for finding cancer driver somatic genome alterations: The weighted mutually exclusive maximum set cover problem

Lu, S
Mandava, G
Yan, G
Lu, X

January 2016

Background: The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations a...

PROCEEDINGS Open Access Identifying overlapping mutated driver pathways by constructing gene networks in cancer

Hao Wu
Lin Gao
Feng Li
Fei Song
Xiaofei Yang
Nikola Kasabov

August 2016

Background: Large-scale cancer genomic projects are providing lots of data on genomic, epigenomic an...

A network of cancer genes with co-occurring and anti-co-occurring mutations.

Qinghua Cui

Certain cancer genes contribute to tumorigenesis in a manner of either co-occurring or mutually excl...

Co-occurrence and mutual exclusivity: what cross-cancer mutation patterns can tell us.

El Tekle, Geniver
Bernasocchi, Tiziano
Unni, Arun M
Bertoni, Francesco
Rossi, Davide
Rubin, Mark A.
Theurillat, Jean-Philippe

September 2021

Cancer is the dysregulated proliferation of cells caused by acquired mutations in key driver genes. ...

DOI 10.1186/s13059-015-0700-7 METHOD Open Access CoMEt: a statistical approach to identify

August 2016

combinations of mutually exclusive alterations in cancer Mark DM Leiserson1,2†, Hsin-Ta Wu1,2†, Fabi...

MEGSA: A Powerful and Flexible Framework for Analyzing Mutual Exclusivity of Tumor Mutations

Hua, Xing
Hyland, Paula L.
Huang, Jing
Song, Lei
Zhu, Bin
Caporaso, Neil E.
Landi, Maria Teresa
Chatterjee, Nilanjan
Shi, Jianxin

March 2016

The central challenges in tumor sequencing studies is to identify driver genes and pathways, investi...

An exact algorithm for finding cancer driver somatic genome alterations: the weighted mutually exclusive maximum set cover problem

Lu, Songjian
Mandava, Gunasheil
Yan, Gaibo
Lu, Xinghua

May 2016

Background\ud The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations...

Identification of Networks of Co-Occurring, Tumor-Related DNA Copy Number Changes Using a Genome-Wide Scoring Approach

Klijn, C. (author)
Bot, J. (author)
Adams, D.J. (author)
Reinders, M. (author)
Wessels, L. (author)
Jonkers, J. (author)

January 2010

Tumorigenesis is a multi-step process in which normal cells transform into malignant tumors followin...

A novel independence test for somatic alterations in cancer shows that biology drives mutual exclusivity but chance explains most co-occurrence

Canisius, Sander (author)
Wessels, L.F.A. (author)
Martens, John W. M. (author)

January 2016

In cancer, mutually exclusive or co-occurring somatic alterations across genes can suggest functiona...

Systematic identification of cancer driving signaling pathways based on mutual exclusivity of genomic alterations.

Babur, Ö.
Gönen, M.
Aksoy, B.A.
Schultz, N.
Ciriello, G.
Sander, C.
Demir, E.

February 2015

We present a novel method for the identification of sets of mutually exclusive gene alterations in a...

Identifying Driver Genomic Alterations in Cancers by Searching Minimum-Weight, Mutually Exclusive Sets

Lu, S
Lu, KN
Cheng, SY
Hu, B
Ma, X
Nystrom, N
Lu, X

August 2015

An important goal of cancer genomic research is to identify the driving pathways underlying disease ...

SSA-ME Detection of cancer driver genes using mutual exclusivity by small subnetwork analysis

Pulido Tamayo, Sergio
Weytjens, Bram
De Maeyer, Dries
Marchal, Kathleen

January 2016

Because of its clonal evolution a tumor rarely contains multiple genomic alterations in the same pat...

Modeling Mutual Exclusivity of Cancer Mutations

Ewa Szczurek (543794)
Niko Beerenwinkel (54419)

March 2014

<div><p>In large collections of tumor samples, it has been observed that sets of genes that are comm...

Efficient algorithms to discover alterations with complementary functional association in cancer

Basso, RS
Hochbaum, DS
Vandin, F

May 2019

Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....

Efficient algorithms to discover alterations with complementary functional association in cancer.

Rebecca Sarto Basso
Dorit S Hochbaum
Fabio Vandin

May 2019

Recent large cancer studies have measured somatic alterations in an unprecedented number of tumours....

An exact algorithm for finding cancer driver somatic genome alterations: The weighted mutually exclusive maximum set cover problem

Lu, S
Mandava, G
Yan, G
Lu, X

January 2016

Background: The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations a...

PROCEEDINGS Open Access Identifying overlapping mutated driver pathways by constructing gene networks in cancer

Hao Wu
Lin Gao
Feng Li
Fei Song
Xiaofei Yang
Nikola Kasabov

August 2016

Background: Large-scale cancer genomic projects are providing lots of data on genomic, epigenomic an...

A network of cancer genes with co-occurring and anti-co-occurring mutations.

Qinghua Cui

Certain cancer genes contribute to tumorigenesis in a manner of either co-occurring or mutually excl...

Co-occurrence and mutual exclusivity: what cross-cancer mutation patterns can tell us.

El Tekle, Geniver
Bernasocchi, Tiziano
Unni, Arun M
Bertoni, Francesco
Rossi, Davide
Rubin, Mark A.
Theurillat, Jean-Philippe

September 2021

Cancer is the dysregulated proliferation of cells caused by acquired mutations in key driver genes. ...

DOI 10.1186/s13059-015-0700-7 METHOD Open Access CoMEt: a statistical approach to identify

August 2016

combinations of mutually exclusive alterations in cancer Mark DM Leiserson1,2†, Hsin-Ta Wu1,2†, Fabi...

MEGSA: A Powerful and Flexible Framework for Analyzing Mutual Exclusivity of Tumor Mutations

Hua, Xing
Hyland, Paula L.
Huang, Jing
Song, Lei
Zhu, Bin
Caporaso, Neil E.
Landi, Maria Teresa
Chatterjee, Nilanjan
Shi, Jianxin

March 2016

The central challenges in tumor sequencing studies is to identify driver genes and pathways, investi...

An exact algorithm for finding cancer driver somatic genome alterations: the weighted mutually exclusive maximum set cover problem

Lu, Songjian
Mandava, Gunasheil
Yan, Gaibo
Lu, Xinghua

May 2016

Background\ud The mutual exclusivity of somatic genome alterations (SGAs), such as somatic mutations...

Identification of Networks of Co-Occurring, Tumor-Related DNA Copy Number Changes Using a Genome-Wide Scoring Approach

Klijn, C. (author)
Bot, J. (author)
Adams, D.J. (author)
Reinders, M. (author)
Wessels, L. (author)
Jonkers, J. (author)

January 2010

Tumorigenesis is a multi-step process in which normal cells transform into malignant tumors followin...

A novel independence test for somatic alterations in cancer shows that biology drives mutual exclusivity but chance explains most co-occurrence

Canisius, Sander (author)
Wessels, L.F.A. (author)
Martens, John W. M. (author)

January 2016

In cancer, mutually exclusive or co-occurring somatic alterations across genes can suggest functiona...

Systematic identification of cancer driving signaling pathways based on mutual exclusivity of genomic alterations.

Abstract

Extracted data

Systematic identification of cancer driving signaling pathways based on mutual exclusivity of genomic alterations.

Abstract

Extracted data

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