Add to ORKG(EN) Humans and cells in their bodies are exposed to various mutagens in their lifetime that cause DNA damage and mutations, which affect the biology and physiology of the target cell, and can lead to the expansion of an immortalized cell clone. Genome-wide massively parallel sequencing allows the identification of DNA mutations in the coding sequences (whole exome sequencing, WES), or even the entire genome of a tumour. Mutational signatures of individual mutagenic processes can be extracted from these data, as well as mutations in genes potentially important for cancer development ('cancer drivers', as opposed to 'passengers', which do not confer a comparative growth advantage to a cell clone). Many known mutational signatures do not yet ...
Multiple signatures of somatic mutations have been identified in cancer genomes. Exome sequences of ...
The accuracy of replicating the genetic code is fundamental. DNA repair mechanisms protect the fidel...
The molecular mechanisms that instigate a healthy cell to become malignant are fueled by (epi)geneti...
A cancer genome carries the historic mutagenic activity that has occurred throughout the development...
Experimental models that recapitulate mutational landscapes of human cancers are needed to decipher ...
The genome of a cancer cell is replete with somatic mutations imprinted by the activities of differe...
Cancer is a genetic disease. Step-wise alteration of genes that have a normal function in the cell c...
DNA can be damaged by a variety of mutagenic processes, like smoking and UV-radiation. Cells can rep...
Multiple signatures of somatic mutations have been identified in cancer genomes. Exome sequences of ...
Advances in the field of molecular biology have resulted in a decent understanding of the causes for...
Cancer therapy operates by inflicting damage in malignant cells. The most lethal target is the genom...
The diversity of somatic mutations in human cancers can be decomposed into individual mutational sig...
Mutational analyses of cancer genomes have identified novel candidate cancer genes with hitherto unk...
DNA in dividing cells is prone to mutagenesis, with mutations making key contributions to human dise...
<div><p>The accuracy of replicating the genetic code is fundamental. DNA repair mechanisms protect t...
Multiple signatures of somatic mutations have been identified in cancer genomes. Exome sequences of ...
The accuracy of replicating the genetic code is fundamental. DNA repair mechanisms protect the fidel...
The molecular mechanisms that instigate a healthy cell to become malignant are fueled by (epi)geneti...
A cancer genome carries the historic mutagenic activity that has occurred throughout the development...
Experimental models that recapitulate mutational landscapes of human cancers are needed to decipher ...
The genome of a cancer cell is replete with somatic mutations imprinted by the activities of differe...
Cancer is a genetic disease. Step-wise alteration of genes that have a normal function in the cell c...
DNA can be damaged by a variety of mutagenic processes, like smoking and UV-radiation. Cells can rep...
Multiple signatures of somatic mutations have been identified in cancer genomes. Exome sequences of ...
Advances in the field of molecular biology have resulted in a decent understanding of the causes for...
Cancer therapy operates by inflicting damage in malignant cells. The most lethal target is the genom...
The diversity of somatic mutations in human cancers can be decomposed into individual mutational sig...
Mutational analyses of cancer genomes have identified novel candidate cancer genes with hitherto unk...
DNA in dividing cells is prone to mutagenesis, with mutations making key contributions to human dise...
<div><p>The accuracy of replicating the genetic code is fundamental. DNA repair mechanisms protect t...
Multiple signatures of somatic mutations have been identified in cancer genomes. Exome sequences of ...
The accuracy of replicating the genetic code is fundamental. DNA repair mechanisms protect the fidel...
The molecular mechanisms that instigate a healthy cell to become malignant are fueled by (epi)geneti...