Add to ORKGSomatic mutations are the driving force of cancer genome evolution. The rate of somatic mutations appears to be greatly variable across the genome due to variations in chromatin organization, DNA accessibility and replication timing. However, other variables that may influence the mutation rate locally are unknown, such as a role for DNA-binding proteins, for example. Here we demonstrate that the rate of somatic mutations in melanomas is highly increased at active transcription factor binding sites and nucleosome embedded DNA, compared to their flanking regions. Using recently available excision-repair sequencing (XR-seq) data, we show that the higher mutation rate at these sites is caused by a decrease of the levels of nucleotide excision ...
Ultraviolet radiation-induced DNA mutations are a primary environmental driver of melanoma. The reas...
Cancer genome sequencing has revealed that somatic mutation rates vary substantially across the huma...
<div><p>Deciphering the multitude of epigenomic and genomic factors that influence the mutation rate...
© 2016 Macmillan Publishers Limited. Promoters are DNA sequences that have an essential role in con...
Carcinogenesis and neoplastic progression are mediated by the accumulation of somatic mutations. Her...
Sequencing of whole cancer genomes has revealed an abundance of recurrent mutations in gene-regulato...
Sequencing of whole cancer genomes has revealed an abundance of recurrent mutations in gene-regulato...
SummarySomatic mutations in cancer are more frequent in heterochromatic and late-replicating regions...
Somatic mutations in cancer are more frequent in heterochromatic and late-replicating regions of the...
Ultraviolet (UV) light-induced mutations are unevenly distributed across skin cancer genomes, but th...
Replication can cause unrepaired DNA damages to lead mutations that might result in cancer. Nucleoti...
Somatic mutations occurring in many cancer types are associated with well-understood processes, such...
Ultraviolet (UV) light-induced mutations are unevenly distributed across skin cancer genomes, but th...
The rates at which lesions are removed by DNA repair can vary widely throughout the genome, with imp...
Llocs d’unió; Dany en l'ADN; Factor de transcripcióSitios de unión; Daño en el ADN; Factor de transc...
Ultraviolet radiation-induced DNA mutations are a primary environmental driver of melanoma. The reas...
Cancer genome sequencing has revealed that somatic mutation rates vary substantially across the huma...
<div><p>Deciphering the multitude of epigenomic and genomic factors that influence the mutation rate...
© 2016 Macmillan Publishers Limited. Promoters are DNA sequences that have an essential role in con...
Carcinogenesis and neoplastic progression are mediated by the accumulation of somatic mutations. Her...
Sequencing of whole cancer genomes has revealed an abundance of recurrent mutations in gene-regulato...
Sequencing of whole cancer genomes has revealed an abundance of recurrent mutations in gene-regulato...
SummarySomatic mutations in cancer are more frequent in heterochromatic and late-replicating regions...
Somatic mutations in cancer are more frequent in heterochromatic and late-replicating regions of the...
Ultraviolet (UV) light-induced mutations are unevenly distributed across skin cancer genomes, but th...
Replication can cause unrepaired DNA damages to lead mutations that might result in cancer. Nucleoti...
Somatic mutations occurring in many cancer types are associated with well-understood processes, such...
Ultraviolet (UV) light-induced mutations are unevenly distributed across skin cancer genomes, but th...
The rates at which lesions are removed by DNA repair can vary widely throughout the genome, with imp...
Llocs d’unió; Dany en l'ADN; Factor de transcripcióSitios de unión; Daño en el ADN; Factor de transc...
Ultraviolet radiation-induced DNA mutations are a primary environmental driver of melanoma. The reas...
Cancer genome sequencing has revealed that somatic mutation rates vary substantially across the huma...
<div><p>Deciphering the multitude of epigenomic and genomic factors that influence the mutation rate...