Abstract Background Identifying key “driver” mutations which are responsible for tumorigenesis is critical in the development of new oncology drugs. Due to multiple pharmacological successes in treating cancers that are caused by such driver mutations, a large body of methods have been developed to differentiate these mutations from the benign “passenger” mutations which occur in the tumor but do not further progress the disease. Under the hypothesis that driver mutations tend to cluster in key regions of the protein, the development of algorithms that identify these clusters has become a critical area of research. Results We have de...
Genomics and genome screening are proving central to the study of cancer. However, a good appreciati...
タンパク質の立体構造上の変異解析により治療標的となり得るがん遺伝子を検出. 京都大学プレスリリース. 2016-06-01.Protein tertiary structure determines ...
The genome of a cancer cell is replete with somatic mutations imprinted by the activities of differe...
TheQuartPAC package is designed to identify mutated amino acid hotspots while accounting for protein...
Background: Current research suggests that a small set of “driver ” mutations are responsible for tu...
Background: It is well known that the development of cancer is caused by the accumulation of somatic...
A new algorithm and Web server, mutation3D (http://mutation3d.org), proposes driver genes in cancer ...
The GraphPAC package is a novel tool that identifies clusters of mutated amino acids in proteins by ...
A graph theoretic approach to utilizing protein structure to identify non-random somatic mutations G...
Abstract Background Human cancer is caused by the accumulation of tumor-specific mutations in oncoge...
Cancer researchers have long recognized that somatic mutations are not uniformly distributed within ...
Large-scale tumor sequencing projects enabled the identification of many new cancer gene candidates ...
Title Identification of mutational clusters in protein quaternary structures. Version 1.0.
Sequencing of cancer genomes reveals the story of mutational events shaping the distribution of soma...
The new era of cancer genomics is providing us with extensive knowledge of mutations and other alter...
Genomics and genome screening are proving central to the study of cancer. However, a good appreciati...
タンパク質の立体構造上の変異解析により治療標的となり得るがん遺伝子を検出. 京都大学プレスリリース. 2016-06-01.Protein tertiary structure determines ...
The genome of a cancer cell is replete with somatic mutations imprinted by the activities of differe...
TheQuartPAC package is designed to identify mutated amino acid hotspots while accounting for protein...
Background: Current research suggests that a small set of “driver ” mutations are responsible for tu...
Background: It is well known that the development of cancer is caused by the accumulation of somatic...
A new algorithm and Web server, mutation3D (http://mutation3d.org), proposes driver genes in cancer ...
The GraphPAC package is a novel tool that identifies clusters of mutated amino acids in proteins by ...
A graph theoretic approach to utilizing protein structure to identify non-random somatic mutations G...
Abstract Background Human cancer is caused by the accumulation of tumor-specific mutations in oncoge...
Cancer researchers have long recognized that somatic mutations are not uniformly distributed within ...
Large-scale tumor sequencing projects enabled the identification of many new cancer gene candidates ...
Title Identification of mutational clusters in protein quaternary structures. Version 1.0.
Sequencing of cancer genomes reveals the story of mutational events shaping the distribution of soma...
The new era of cancer genomics is providing us with extensive knowledge of mutations and other alter...
Genomics and genome screening are proving central to the study of cancer. However, a good appreciati...
タンパク質の立体構造上の変異解析により治療標的となり得るがん遺伝子を検出. 京都大学プレスリリース. 2016-06-01.Protein tertiary structure determines ...
The genome of a cancer cell is replete with somatic mutations imprinted by the activities of differe...